PPI network (data source: BioGrid)

Symbol A GeneA coding DNM count Symbol B GeneB coding DNM count Interaction detection method Publication Evidence
ERBB2 6 VAPB 2 affinity chromatography technology Hein MY (2015) 1
RELA 1 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS2 1 SKP1 0 affinity chromatography technology Couzens AL (2013) 1
MAP2K3 1 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
MET 7 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 LATS1 3 affinity chromatography technology Guo C (2007) 1
AKT1 1 TERT 7 affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Kawauchi K (2005), Kim MO (2008), Ivanov AA (2017) 3
FZR1 1 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 XPO1 8 affinity chromatography technology, affinity chromatography technology Koch HB (2007), Kirli K (2015) 2
ITCH 1 RASSF5 2 affinity chromatography technology, affinity chromatography technology, pull down Suryaraja R (2013), Suryaraja R (2013), Suryaraja R (2013) 3
HUWE1 22 CDC20 1 affinity chromatography technology Hein MY (2015) 1
BTRC 1 RASSF1 3 two hybrid, affinity chromatography technology, bioid, affinity chromatography technology Vinayagam A (2011), Zhou X (2012), Coyaud E (2015), Huttlin EL (2017) 4
VAPA 1 VAPB 2 pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Nishimura Y (1999), Huttlin EL (2015), Hein MY (2015), Huttlin EL (2017) 4
BRAF 12 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
SUV39H1 0 KDM1A 2 two hybrid Weimann M (2013) 1
MYC 2 GSK3B 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, genetic interference Gregory MA (2003), Gregory MA (2003), Arnold HK (2009), Zhou Z (2014) 4
AURKA 1 RASSF1 3 enzymatic study, fluorescent resonance energy transfe Chow C (2011), Ivanov AA (2017) 2
FZR1 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
VAPA 1 SMARCA4 19 affinity chromatography technology Hein MY (2015) 1
RAF1 3 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 HIST2H2AB 1 affinity chromatography technology Huttlin EL (2015) 1
PRKDC 12 ATM 9 unspecified method, affinity chromatography technology, affinity chromatography technology Kim ST (1999), Suzuki K (1999), Suzuki K (1999) 3
AURKA 1 LATS2 1 affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, imaging technique, fluorescent resonance energy transfe Yabuta N (2011), Toji S (2004), Toji S (2004), Toji S (2004), Toji S (2004), Ivanov AA (2017) 6
GRM1 4 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 GSK3B 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kwon YW (2012), Chou CH (2013), Chou CH (2013) 3
KAT2A 1 RELA 1 affinity chromatography technology, affinity chromatography technology, pull down, fluorescent resonance energy transfe Mao X (2009), Mao X (2009), Mao X (2009), Ivanov AA (2017) 4
RASSF1 3 RELA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 MDM2 2 affinity chromatography technology, affinity chromatography technology Banks D (2006), Latini P (2011) 2
MAP1S 3 MAP1B 5 affinity chromatography technology Hauri S (2013) 1
PRKDC 12 GSK3B 1 enzymatic study Dragoi AM (2005) 1
GSK3B 1 RELA 1 affinity chromatography technology Neumann M (2011) 1
CDK4 2 CDK6 0 affinity chromatography technology, fluorescent resonance energy transfe Varjosalo M (2013), Ivanov AA (2017) 2
RELA 1 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SMURF1 4 XPO1 8 affinity chromatography technology Tajima Y (2003) 1
RASSF1 3 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 CCND2 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Lin J (2001), Kehn K (2004), Kehn K (2004), Sweeney KJ (1997), Huttlin EL (2015), Huttlin EL (2017), Denicourt C (2008), Ivanov AA (2017) 8
NF2 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
ERBB2 6 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 CUL1 7 affinity chromatography technology von der Lehr N (2003) 1
KDELR2 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 MAP2K6 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
HUWE1 22 RASSF1 3 affinity chromatography technology Zhou X (2012) 1
TERT 7 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 RAF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
TEAD2 2 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
GRM1 4 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF5 2 STK3 1 affinity chromatography technology, two hybrid, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Behrends C (2010), Wang J (2011), Couzens AL (2013), Couzens AL (2013), Varjosalo M (2013), Hauri S (2013), Hauri S (2013) 7
GLIS2 2 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATR 6 TERT 7 genetic interference Xie L (2013) 1
MAP2K6 2 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 AKT1 1 affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, enzymatic study Romano D (2010), Romano D (2010), Kim D (2010), Kim D (2010), Kim D (2010) 5
SUV39H2 3 RASSF1 3 two hybrid, two hybrid Vinayagam A (2011), Weimann M (2013) 2
RASSF1 3 NDUFV2 0 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
STK4 1 DAXX 5 pull down Yun HJ (2011) 1
RASSF1 3 SNX27 5 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
MYC 2 KAT2A 1 affinity chromatography technology, enzymatic study, pull down, affinity chromatography technology, affinity chromatography technology, pull down, fluorescent resonance energy transfe McMahon SB (2000), Faiola F (2005), Liu X (2008), Conacci-Sorrell M (2010), Liu X (2003), Liu X (2003), Ivanov AA (2017) 7
CCNE1 1 SKP2 2 pull down, enzymatic study Yeh KH (2001), Enchev RI (2012) 2
CDC20 1 ID1 0 affinity chromatography technology, affinity chromatography technology Wang X (2008), Wang X (2008) 2
RHOU 0 RASSF1 3 pull down Dart AE (2015) 1
GLIS2 2 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
VAPB 2 RASSF1 3 affinity chromatography technology Huttlin EL (2017) 1
ERBB2 6 CLNK 2 unspecified method Jones RB (2006) 1
FBXW11 2 MAP1S 3 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kim TY (2014), Coyaud E (2015), Low TY (2014) 3
CUL4A 2 TUBB 3 affinity chromatography technology Bennett EJ (2010) 1
LATS2 1 RASSF1 3 fluorescent resonance energy transfe, pull down, fluorescent resonance energy transfe Mo XL (2015), Mo XL (2015), Ivanov AA (2017) 3
GRM1 4 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
BRAF 12 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCNE1 1 TUBG1 2 biochemical Matsumoto Y (2004) 1
CUL4A 2 BTRC 1 affinity chromatography technology He YJ (2006) 1
MAP2K6 2 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
KCNE3 0 RASSF1 3 two hybrid Vinayagam A (2011) 1
TERT 7 MDM2 2 affinity chromatography technology, affinity chromatography technology, pull down, enzymatic study, affinity chromatography technology, pull down Oh W (2010), Oh W (2010), Oh W (2010), Oh W (2010), Hu C (2015), Hu C (2015) 6
BTRC 1 MAP1S 3 bioid, affinity chromatography technology Coyaud E (2015), Huttlin EL (2017) 2
SMURF1 4 MAP1B 5 affinity chromatography technology Xie Y (2013) 1
KDELR2 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL1 7 BTRC 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Min KW (2003), Suzuki H (2000), Cenciarelli C (1999), Sowa ME (2009), Megumi Y (2005), Davis M (2002), Kawakami T (2001), Read MA (2000), Suzuki H (1999), Kumar KG (2007), Schweitzer K (2007), Chua YS (2011), Winston JT (1999), Winston JT (1999), Peschiaroli A (2010), Latres E (1999), Latres E (1999), Yoshida Y (2007), Bennett EJ (2010), Cui W (2012), Dehan E (2009), Busino L (2003), Chung FZ (2014), Chen ZW (2015), Kim TY (2014), Read MA (2000), Coyaud E (2015), Low TY (2014), Coyaud E (2015), He N (2005), Huttlin EL (2017), Kuang P (2016), Reitsma JM (2017), Reitsma JM (2017) 34
FZR1 1 DDB1 6 affinity chromatography technology, affinity chromatography technology Lv XB (2010), Lv XB (2010) 2
ERBB2 6 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 MYC 2 enzymatic study, two hybrid, fluorescent resonance energy transfe Anders L (2011), Wang J (2011), Ivanov AA (2017) 3
ERBB2 6 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 CDC20 1 affinity chromatography technology Kirli K (2015) 1
KDELR2 1 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 MST1 1 two hybrid Fenton SL (2004) 1
FGFR4 6 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 BTRC 1 affinity chromatography technology Irelan JT (2007) 1
TERT 7 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TERT 7 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 SKP1 0 affinity chromatography technology Fogeron ML (2013) 1
XPO1 8 ARAF 0 affinity chromatography technology Kirli K (2015) 1
GSK3B 1 TSC1 4 affinity chromatography technology Mak BC (2003) 1
AURKA 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS2 1 LATS1 3 affinity chromatography technology, bioid Xiao L (2011), Couzens AL (2013) 2
ARAF 0 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TGFBR2 0 ERBB2 6 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
GRM1 4 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 STK3 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kim TY (2014), Kim TY (2014), Coyaud E (2015) 3
TSC1 4 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 CDKN2A 1 affinity chromatography technology, unspecified method, pull down, two hybrid, two hybrid, pull down, affinity chromatography technology, pull down, two hybrid, affinity chromatography technology, two hybrid, pull down, two hybrid, pull down, pull down, pull down, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Ewing RM (2007), Fahraeus R (1996), Li J (2004), Sugimoto M (1999), Serrano M (1993), Serrano M (1993), Serrano M (1993), Coleman KG (1997), Zhang Y (1998), Haddad MM (1999), Li J (2002), Li J (2002), Lal G (2000), Yarbrough WG (1999), Della Torre G (2001), Jones R (2007), Jones R (2007), Ramachandran N (2004), Varjosalo M (2013), Varjosalo M (2013), Huttlin EL (2015), Hein MY (2015), Fei HJ (2017), Huttlin EL (2017), Ivanov AA (2017) 25
CDKN2A 1 MYC 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Herkert B (2010), Amente S (2007), Zhang Q (2013), Ivanov AA (2017) 4
MET 7 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS2 1 AURKB 2 affinity chromatography technology, affinity chromatography technology, enzymatic study Yabuta N (2011), Yabuta N (2011), Yabuta N (2011) 3
FZR1 1 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
TEAD2 2 HUWE1 22 affinity chromatography technology Li X (2015) 1
TERT 7 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 CUL1 7 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, imaging technique, affinity chromatography technology Suzuki H (2000), Sowa ME (2009), Fuchs SY (1999), Tan P (1999), Bennett EJ (2010), Cui W (2012), Dehan E (2009), Busino L (2003), DAnnibale S (2014), Kim TY (2014), Coyaud E (2015), Low TY (2014), Chen TC (2014), Reitsma JM (2017) 14
RASSF1 3 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK4 1 SAV1 0 affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Behrends C (2010), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Varjosalo M (2013), Huttlin EL (2015), Hauri S (2013), Hauri S (2013), Bae SJ (2015), Huttlin EL (2017), Boldt K (2016) 12
RASSF1 3 SAV1 0 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down Guo C (2007), Guo C (2007), Donninger H (2011), Donninger H (2011) 4
AKT1 1 GSK3B 1 pull down, enzymatic study, enzymatic study, enzymatic study, affinity chromatography technology, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study, enzymatic study Thimmaiah KN (2005), Drendall CI (2010), Connor MK (2005), Hunter MG (2004), Zhu QS (2011), Li L (2003), Nam SY (2010), Yang WL (2009), Zeng L (2013), Yang H (2005), Boehme KA (2008), Cross DA (1995), Hinton CV (2007), Kapoor GS (2004), Pitre A (2012), Guo J (2016) 16
TEAD2 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 SUV39H1 0 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Chen L (2010), Mungamuri SK (2016), Mungamuri SK (2016) 3
FZR1 1 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CNKSR1 2 STK4 1 affinity chromatography technology Rabizadeh S (2004) 1
FGFR4 6 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 RAF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K6 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 SMARCA4 19 two hybrid, affinity chromatography technology Becker TM (2009), Becker TM (2009) 2
ATRX 7 MDM2 2 unspecified method Li Z (2017) 1
BTRC 1 SKP1 0 affinity chromatography technology, affinity chromatography technology, pull down, two hybrid, affinity chromatography technology, two hybrid, pull down, affinity chromatography technology, x-ray crystallography, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Min KW (2003), Suzuki H (2000), Strack P (2000), Margottin F (1998), Cenciarelli C (1999), Cenciarelli C (1999), Cenciarelli C (1999), Watanabe N (2004), Wu G (2003), Kawakami T (2001), Hattori K (1999), Hattori K (1999), Hattori K (1999), Kitagawa M (1999), Hart M (1999), Su Y (2008), Banerjee S (2010), Winston JT (1999), Winston JT (1999), Estrabaud E (2007), Latres E (1999), Latres E (1999), Liu J (2004), Lievens S (2009), Yoshida Y (2007), Yoshida Y (2007), Busino L (2012), Li T (2005), da Silva Almeida AC (2013), Sahasrabuddhe AA (2014), Choi BH (2014), Chong RA (2014), Kim TY (2014), Coyaud E (2015), Deng W (2015), Coyaud E (2015), Liu YQ (2015), He N (2005), Kuchay S (2017), Hauri S (2016) 40
GLIS2 2 MDM2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
GSK3B 1 MDM2 2 enzymatic study, affinity chromatography technology Kulikov R (2005), Kulikov R (2005) 2
MAP2K6 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
HRAS 2 BRAF 12 two hybrid, pull down, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Stang S (1997), Reuter CW (1995), Huttlin EL (2017), Eisenhardt AE (2016), Ivanov AA (2017) 5
CDKN2B 0 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 TUBB 3 pull down Souza-Rodrigues E (2007) 1
GLIS2 2 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
MET 7 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF5 2 BTRC 1 affinity chromatography technology, affinity chromatography technology, two hybrid Schmidt ML (2014), Schmidt ML (2014), Rolland T (2014) 3
VAPB 2 STK4 1 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
CDK4 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCNE1 1 CDK4 2 affinity chromatography technology, fluorescent resonance energy transfe Datta NS (1998), Ivanov AA (2017) 2
LATS2 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 SKP1 0 two hybrid Wang J (2011) 1
AURKB 2 RASSF1 3 enzymatic study Chow C (2011) 1
FGFR4 6 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKB 2 DDB1 6 affinity chromatography technology Fogeron ML (2013) 1
AURKA 1 MDM2 2 affinity chromatography technology, enzymatic study Sehdev V (2013), Sehdev V (2013) 2
RELA 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
GRM1 4 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 AKT1 1 affinity chromatography technology, affinity chromatography technology, pull down, enzymatic study, imaging technique, affinity chromatography technology, affinity chromatography technology, enzymatic study, enzymatic study Lin HK (2009), Lin HK (2009), Lin HK (2009), Lin HK (2009), Lin HK (2009), Roe JS (2011), Gao D (2009), Gao D (2009), Chan CH (2013) 9
AURKB 2 TUBB 3 affinity chromatography technology Fogeron ML (2013) 1
RAF1 3 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL1 7 TUBB 3 affinity chromatography technology Bennett EJ (2010) 1
MDM2 2 DDB1 6 affinity chromatography technology, affinity chromatography technology Latini P (2011), Jacob AG (2014) 2
BTRC 1 MDM2 2 affinity chromatography technology, affinity chromatography technology, pull down Inuzuka H (2010), Inuzuka H (2010), Inuzuka H (2010) 3
GRM1 4 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATRX 7 RASSF1 3 unspecified method Li Z (2017) 1
GLIS2 2 FZR1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
PRKDC 12 RASSF1 3 unspecified method Kim ST (1999) 1
STK4 1 VAPA 1 affinity chromatography technology, affinity chromatography technology Hauri S (2013), Huttlin EL (2017) 2
HRAS 2 RAF1 3 two hybrid, two hybrid, pull down, pull down, two hybrid, two hybrid, pull down, affinity chromatography technology, two hybrid, two hybrid, affinity chromatography technology, two hybrid, pull down, two hybrid, two hybrid, pull down, affinity chromatography technology, pull down, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, fluorescent resonance energy transfe Stang S (1997), Germani A (2003), Mitin NY (2004), Vargiu P (2004), Yuryev A (2003), Li W (2000), Li W (2000), Kiyono M (2000), Janoueix-Lerosey I (1998), Boettner B (2000), Karbowniczek M (2006), Han L (1995), Jelinek T (1994), Romero F (1999), Morcos P (1996), Hu CD (1995), Hu CD (1995), Rodriguez-Viciana P (1997), Huang YZ (2003), Stang S (1997), Dougherty MK (2005), Ji H (2016), Fridman M (2000), Ivanov AA (2017) 24
ATM 9 E4F1 3 unspecified method Kim ST (1999) 1
XPO1 8 RASSF1 3 affinity chromatography technology Kirli K (2015) 1
MAP2K3 1 MAP2K6 2 genetic interference, affinity chromatography technology, imaging technique, affinity chromatography technology, fluorescent resonance energy transfe Huber TB (2001), Huttlin EL (2015), Chen TC (2014), Huttlin EL (2017), Ivanov AA (2017) 5
MYC 2 RAF1 3 pull down, affinity chromatography technology, fluorescent resonance energy transfe Alexandrov I (1997), Koch HB (2007), Ivanov AA (2017) 3
DAXX 5 SUV39H1 0 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Hein MY (2015), He Q (2015), He Q (2015) 3
RASSF1 3 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 VAPA 1 affinity chromatography technology, affinity chromatography technology Varjosalo M (2013), Huttlin EL (2017) 2
SKP2 2 RASSF1 3 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Song MS (2008), Song MS (2008), Calvisi DF (2009) 3
FZR1 1 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 SKP2 2 affinity chromatography technology Bondar T (2006) 1
FBXW11 2 MAP1B 5 affinity chromatography technology, affinity chromatography technology Coyaud E (2015), Low TY (2014) 2
NF2 1 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
GSK3B 1 CCNE1 1 enzymatic study, imaging technique Welcker M (2003), Chen TC (2014) 2
AURKA 1 DDB1 6 affinity chromatography technology Fogeron ML (2013) 1
XPO1 8 DAXX 5 affinity chromatography technology Kirli K (2015) 1
ARAF 0 GLIS2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
TUBG1 2 SKP1 0 affinity chromatography technology Fogeron ML (2013) 1
NF2 1 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 RELA 1 affinity chromatography technology Kirli K (2015) 1
ATM 9 DAXX 5 enzymatic study Tang J (2013) 1
RAF1 3 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RHOA 0 SMURF1 4 pull down, enzymatic study, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology Asanuma K (2006), Tian M (2011), Tian M (2011), Tian M (2011), Lee MG (2016), He S (2017) 6
RASSF1 3 MAP1B 5 affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Dallol A (2004), Dallol A (2004), Huttlin EL (2015), Hauri S (2013), Huttlin EL (2017) 5
MAP2K3 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ERBB2 6 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
BTRC 1 CCNE1 1 enzymatic study, enzymatic study Saha A (2008), Pierce NW (2013) 2
C7orf25 0 RASSF1 3 two hybrid Vinayagam A (2011) 1
MDM2 2 TUBB 3 affinity chromatography technology Frum R (2007) 1
HRAS 2 BTRC 1 pull down, affinity chromatography technology, affinity chromatography technology Kim SE (2009), Kim SE (2009), Kim SE (2009) 3
TSC1 4 KDM1A 2 two hybrid Weimann M (2013) 1
GLIS2 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 SMARCA4 19 unspecified method Nicholson J (2014) 1
FBXW11 2 MAST2 4 affinity chromatography technology, affinity chromatography technology Kim TY (2014), Low TY (2014) 2
RAF1 3 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TSC1 4 AKT1 1 affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Roux PP (2004), Dan HC (2002), Ivanov AA (2017) 3
ARAF 0 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TUBB 3 KAT2A 1 affinity chromatography technology Conacci-Sorrell M (2010) 1
GLIS2 2 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 CCND2 2 pull down, pull down, fluorescent resonance energy transfe Li J (2004), Li J (2002), Ivanov AA (2017) 3
MDM2 2 RELA 1 two hybrid, pull down, affinity chromatography technology, affinity chromatography technology Wang J (2011), Heyne K (2013), Heyne K (2013), Heyne K (2013) 4
TEAD2 2 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 ITCH 1 affinity chromatography technology Pefani DE (2016) 1
GLIS2 2 CDKN2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATM 9 HUWE1 22 affinity chromatography technology, affinity chromatography technology Mu JJ (2007), Hao Z (2012) 2
AURKB 2 AURKA 1 affinity chromatography technology Fogeron ML (2013) 1
MAP2K3 1 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RELA 1 CDK4 2 affinity chromatography technology Veena MS (2014) 1
PRKDC 12 E4F1 3 unspecified method Kim ST (1999) 1
CDK6 0 MYC 2 enzymatic study, fluorescent resonance energy transfe Anders L (2011), Ivanov AA (2017) 2
FZR1 1 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 CDKN2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDC20 1 CUL1 7 affinity chromatography technology Wu F (2017) 1
SKP2 2 SKP1 0 affinity chromatography technology, pull down, pull down, two hybrid, x-ray crystallography, pull down, pull down, affinity chromatography technology, affinity chromatography technology, pull down, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Min KW (2003), Strack P (2000), Ng RW (1998), Ng RW (1998), Schulman BA (2000), Cenciarelli C (1999), Marti A (1999), Sabile A (2006), Ji P (2004), Wang W (2004), Tokarz S (2004), Watanabe N (2004), Lin HK (2009), Lin HK (2009), Lin HK (2009), Price CT (2009), Huang Z (2004), Wu J (2012), Bashir T (2010), Saiga T (2009), Li T (2005), Carrano AC (1999), Wu J (2012), Wu L (2012), Rodier G (2008), Swarnalatha M (2013), Yumimoto K (2013), Zhou W (2014), Zhou W (2014), Yumimoto K (2012), Tian X (2015), Liu YQ (2015), Kuchay S (2017), Chan CH (2013), Chan CH (2013), Hauri S (2016), Ma X (2017) 37
TGFBR2 0 DAXX 5 two hybrid Perlman R (2001) 1
FBXW11 2 BTRC 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology Suzuki H (2000), Suzuki H (2000), Sowa ME (2009), Sowa ME (2009), Coyaud E (2015), Coyaud E (2015), Coyaud E (2015), Huttlin EL (2017), Liu X (2017) 9
LATS2 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKB 2 FZR1 1 affinity chromatography technology, affinity chromatography technology Nguyen HG (2005), Nguyen HG (2005) 2
CDKN2A 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TUBB 3 MYC 2 affinity chromatography technology Conacci-Sorrell M (2010) 1
TEAD2 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 STK3 1 affinity chromatography technology Huttlin EL (2017) 1
CDK6 0 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 MAST2 4 affinity chromatography technology Matallanas D (2011) 1
RASSF1 3 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CLNK 2 RASSF1 3 two hybrid Grossmann A (2015) 1
BTRC 1 STK3 1 affinity chromatography technology, bioid, affinity chromatography technology Coyaud E (2015), Coyaud E (2015), Huttlin EL (2017) 3
TSC1 4 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 CUL1 7 affinity chromatography technology Song MS (2008) 1
EPHA2 3 TGFBR1 2 affinity chromatography technology Hein MY (2015) 1
FZR1 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 DDB1 6 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Huang J (2008), Huang J (2008), Huang J (2008), Li W (2010), Li W (2010), Zhou L (2015) 6
DAXX 5 RASSF1 3 affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, two hybrid, pull down, x-ray crystallography, affinity chromatography technology, unspecified method Song MS (2008), Song MS (2008), Kitagawa D (2006), Kitagawa D (2006), Giovinazzi S (2012), Giovinazzi S (2012), Escobar-Cabrera E (2010), Zhang H (2013), Li Z (2017) 9
XPO1 8 STK3 1 affinity chromatography technology Kirli K (2015) 1
BRAF 12 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 MYC 2 affinity chromatography technology, affinity chromatography technology, pull down, protein complementation assay, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology von der Lehr N (2003), von der Lehr N (2003), von der Lehr N (2003), von der Lehr N (2003), von der Lehr N (2003), Zhang Q (2013), Kim TA (2013), Jamal A (2015), Fujii M (2006) 9
RASSF1 3 XPO6 2 affinity chromatography technology Hauri S (2013) 1
STK11 2 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP1 0 CUL1 7 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, x-ray crystallography, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, biochemical, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Staropoli JF (2003), Min KW (2003), Lisztwan J (1998), Zheng N (2002), Ohta T (1999), Bloom J (2006), Kumar R (2005), Megumi Y (2005), Wang W (2004), Read MA (2000), Wu K (2000), Tan P (1999), Mao X (2011), Lin HK (2009), Yano H (2008), Banerjee S (2010), Gao D (2010), Chua YS (2011), Zhang M (2008), Winston JT (1999), Latres E (1999), Latres E (1999), Arai T (2003), Oshikawa K (2003), Oshikawa K (2003), Lee JE (2011), Emberley ED (2012), Bennett EJ (2010), Gastaldello S (2012), Michel JJ (1998), Michel JJ (1998), Michel JJ (1998), Lyapina SA (1998), Lyapina SA (1998), Lyapina SA (1998), Lyapina SA (1998), Furukawa M (2000), Furukawa M (2000), Liu J (2002), Liu J (2002), Liu J (2002), Yu ZK (1998), Yu ZK (1998), Postow L (2013), Cordero-Espinoza L (2013), Zhou W (2014), Zhou W (2014), Hao J (2015), Hao J (2015), Han XR (2016), Liu YQ (2015), Gorelik M (2016), Al-Yacoub N (2016), Reiterer V (2017), Hu Y (2017), Hauri S (2016), Reitsma JM (2017), Reitsma JM (2017), Chen F (2017) 59
CDKN2A 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 CDKN2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF5 2 STK4 1 affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Behrends C (2010), Behrends C (2010), Couzens AL (2013), Varjosalo M (2013), Hauri S (2013), Hauri S (2013) 6
HUWE1 22 TUBB 3 affinity chromatography technology Thompson JW (2014) 1
RASSF5 2 MAP1B 5 affinity chromatography technology, affinity chromatography technology Behrends C (2010), Hauri S (2013) 2
CUL1 7 MDM2 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Inuzuka H (2010), Inuzuka H (2010), He Y (2014) 3
RASSF1 3 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCNE1 1 SMARCA4 19 affinity chromatography technology, affinity chromatography technology Wong AK (2000), Shanahan F (1999) 2
CDK4 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
GRM1 4 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
VAPA 1 NDUFV2 0 affinity chromatography technology Hein MY (2015) 1
MDM2 2 LATS1 3 affinity chromatography technology Matallanas D (2011) 1
GLIS2 2 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K6 2 RELA 1 imaging technique Chen TC (2014) 1
SAV1 0 LATS2 1 bioid, affinity chromatography technology, affinity chromatography technology Couzens AL (2013), Rashidian J (2015), Bae SJ (2015) 3
MET 7 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 DDB1 6 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, pull down, affinity chromatography technology, x-ray crystallography, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down Guerrero-Santoro J (2008), Guerrero-Santoro J (2008), Angers S (2006), Angers S (2006), Jin J (2006), Wang H (2006), Kapetanaki MG (2006), Matsuda N (2005), Hu J (2004), Hu J (2004), Hu J (2004), Ahn J (2010), Maddika S (2009), Fischer ES (2011), Tan L (2007), He YJ (2006), He YJ (2006), He YJ (2006), McCall CM (2008), McCall CM (2008), Shiyanov P (1999), Bennett EJ (2010), Gastaldello S (2012), Kanei-Ishii C (2012), Hodgson AJ (2012), Kulaksiz G (2005), Wu Z (2012), Wu Z (2012), Olma MH (2009), Olma MH (2009), Havugimana PC (2012), Rao F (2014), Wan C (2015), Liu Y (2015), Zha Z (2015), Mouysset J (2015), Gao J (2015), Yang Y (2016), Yang Y (2016), Scherer PC (2016), Eichner R (2016), Mo Y (2017), Mo Y (2017), Peng Z (2016), Higa LA (2006), Ohtake F (2007) 46
MYC 2 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
DAXX 5 FZR1 1 affinity chromatography technology Kwan PS (2013) 1
AKT1 1 RAF1 3 enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Zimmermann S (1999), Zimmermann S (1999), Wang J (2009), Wang J (2009), Ivanov AA (2017) 5
RASSF1 3 STK3 1 affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Guo C (2007), Guo C (2007), Liu L (2007), Matallanas D (2007), Romano D (2010), Romano D (2010), Couzens AL (2013), Varjosalo M (2013), Fenton SL (2004), Huttlin EL (2015), Hauri S (2013), Hauri S (2013), Huttlin EL (2017), Ivanov AA (2017) 14
DAXX 5 CDC20 1 affinity chromatography technology Kwan PS (2013) 1
NF2 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 PRKDC 12 genetic interference Shen JP (2017) 1
TUBG1 2 TUBB 3 affinity chromatography technology Fogeron ML (2013) 1
MYC 2 TUBG1 2 affinity chromatography technology Koch HB (2007) 1
GLIS2 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
DDB1 6 SKP2 2 affinity chromatography technology Bondar T (2006) 1
CDK4 2 CDKN2B 0 two hybrid, two hybrid, two hybrid, two hybrid, affinity chromatography technology, fluorescent resonance energy transfe, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Rual JF (2005), Stelzl U (2005), Vinayagam A (2011), Xin X (2009), Varjosalo M (2013), Varjosalo M (2013), Varjosalo M (2013), Varjosalo M (2013), Huttlin EL (2015), Hein MY (2015), Huttlin EL (2017), Ivanov AA (2017) 12
TGFBR1 2 SMURF1 4 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Koinuma D (2003), Ebisawa T (2001), Murakami G (2003) 3
RASSF1 3 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 RELA 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kim TY (2014), Coyaud E (2015), Huttlin EL (2017) 3
FZR1 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 LATS2 1 two hybrid, affinity chromatography technology, affinity chromatography technology Aylon Y (2006), Aylon Y (2006), Aylon Y (2006) 3
GRM1 4 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 RASSF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS1 3 AURKB 2 enzymatic study Yabuta N (2011) 1
MYC 2 PRKDC 12 affinity chromatography technology, genetic interference Koch HB (2007), Zhou Z (2014) 2
NF2 1 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
PRKDC 12 FZR1 1 affinity chromatography technology, affinity chromatography technology Shang ZF (2015), Shang ZF (2015) 2
FBXW11 2 RASSF1 3 affinity chromatography technology, affinity chromatography technology Kim TY (2014), Coyaud E (2015) 2
BRAF 12 RAF1 3 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Weber CK (2001), Weber CK (2001), Kilili GK (2010), Chen C (2008), Chen C (2008), Lito P (2012), Huttlin EL (2017) 7
ATM 9 MAP1S 3 two hybrid Arroyo R (2015) 1
FZR1 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
LRP6 3 GSK3B 1 affinity chromatography technology, enzymatic study, far western blotting Yamamoto H (2006), Piao S (2008), Piao S (2008) 3
CDK4 2 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDM1A 2 XPO1 8 genetic interference Horlbeck MA (2018) 1
BRAF 12 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 CDC20 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, enzymatic study, affinity chromatography technology, pull down Stewart S (2005), Stewart S (2005), Wang Y (2007), Wang Y (2007), Tian W (2012), Hyun SY (2013), Hyun SY (2013) 7
AURKA 1 TUBB 3 affinity chromatography technology Fogeron ML (2013) 1
TERT 7 TGFBR2 0 two hybrid Wang W (2013) 1
RASSF1 3 SKP1 0 affinity chromatography technology Song MS (2008) 1
KAT2A 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 CUL4A 2 affinity chromatography technology, affinity chromatography technology Jiang L (2011), Jiang L (2011) 2
CUL1 7 FZR1 1 affinity chromatography technology, affinity chromatography technology Fukushima H (2013), Fukushima H (2013) 2
CDKN2A 1 DAXX 5 pull down, affinity chromatography technology, affinity chromatography technology Ivanchuk SM (2008), Ivanchuk SM (2008), Ivanchuk SM (2008) 3
DDB1 6 KAT2A 1 affinity chromatography technology, pull down, affinity chromatography technology Martinez E (2001), Martinez E (2001), Li Y (2011) 3
CCND2 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 GLIS2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 CUL4A 2 affinity chromatography technology Choi SH (2010) 1
SAV1 0 LATS1 3 affinity chromatography technology Guo C (2007) 1
MET 7 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2B 0 CDKN2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 GRM1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDC20 1 RASSF1 3 enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Chow C (2011), Chow C (2011), Wang X (2008), Song MS (2004) 4
LATS2 1 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SMARCA4 19 RASSF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
TSC1 4 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
AKT1 1 TUBB 3 affinity chromatography technology, affinity chromatography technology Klein JB (2005), Zhu QS (2011) 2
KDELR2 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
EPHA2 3 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 TUBG1 2 affinity chromatography technology Kirli K (2015) 1
CDKN2B 0 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 MAP1S 3 bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Couzens AL (2013), Varjosalo M (2013), Hauri S (2013), Hauri S (2013) 4
CUL1 7 DDB1 6 affinity chromatography technology, affinity chromatography technology Bennett EJ (2010), Gastaldello S (2012) 2
LATS2 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS1 3 MAST2 4 affinity chromatography technology Matallanas D (2011) 1
EXOSC8 2 RASSF1 3 two hybrid Lehner B (2004) 1
HUWE1 22 MYC 2 pull down, affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Adhikary S (2005), Adhikary S (2005), Adhikary S (2005), Koch HB (2007), Fan L (2015), Zhao X (2008) 6
AURKA 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 RHOA 0 affinity chromatography technology, affinity chromatography technology, pull down, pull down Lee MG (2016), Lee MG (2016), Lee MG (2016), Lee MG (2016) 4
NF2 1 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 FZR1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ERBB2 6 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RELA 1 CDKN2A 1 affinity chromatography technology Veena MS (2014) 1
CDKN2A 1 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 SAV1 0 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, two hybrid, affinity chromatography technology, bioid, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Behrends C (2010), Guo C (2007), Guo C (2007), Chan EH (2005), Chan EH (2005), Wang J (2011), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Varjosalo M (2013), Huttlin EL (2015), Hauri S (2013), Hauri S (2013), Huttlin EL (2017) 15
KDELR2 1 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
TUBB 3 XPO1 8 biochemical, biochemical Havugimana PC (2012), Kristensen AR (2012) 2
TGFBR1 2 TGFBR2 0 two hybrid, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, genetic interference, two hybrid, affinity chromatography technology Kawabata M (1995), Razani B (2001), Yan X (2011), Yan X (2009), Kim SI (2009), Kim SI (2009), Datta PK (2000), Perlman R (2001), Cho W (2015) 9
MAP2K6 2 HRAS 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 AURKA 1 affinity chromatography technology Kirli K (2015) 1
GRM1 4 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 GSK3B 1 two hybrid Wallach T (2013) 1
RHOA 0 CNKSR1 2 two hybrid, pull down, affinity chromatography technology Jaffe AB (2004), Jaffe AB (2004), Jaffe AB (2004) 3
KDELR2 1 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 SMARCA4 19 affinity chromatography technology, affinity chromatography technology, pull down, fluorescent resonance energy transfe Ewing RM (2007), Park J (2002), Pal S (2003), Ivanov AA (2017) 4
DDB1 6 SUV39H1 0 affinity chromatography technology, pull down Yang Y (2015), Yang Y (2015) 2
CDK4 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATR 6 E4F1 3 unspecified method Kim ST (1999) 1
CDK6 0 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
HRAS 2 LATS2 1 affinity chromatography technology Aylon Y (2010) 1
GLIS2 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TEAD2 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 ID1 0 affinity chromatography technology Wang X (2008) 1
XPO1 8 AURKB 2 affinity chromatography technology Kirli K (2015) 1
LATS2 1 STK4 1 affinity chromatography technology, fluorescent resonance energy transfe, enzymatic study Couzens AL (2013), Mo XL (2015), Hoa L (2016) 3
ID1 0 FZR1 1 affinity chromatography technology, affinity chromatography technology Wang X (2008), Wang X (2008) 2
GSK3B 1 XPO6 2 affinity chromatography technology Ewing RM (2007) 1
MDM2 2 AKT1 1 affinity chromatography technology, enzymatic study, affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, imaging technique Lin HK (2002), Ogawara Y (2002), Zhou BP (2001), Zhou BP (2001), Kim CK (2011), Kim CK (2011), Zhu QS (2011), Milne D (2004), Deep G (2008), Deep G (2008), Chen TC (2014) 11
GRM1 4 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
GRM1 4 RAF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
BRAF 12 ARAF 0 affinity chromatography technology, imaging technique, affinity chromatography technology, fluorescent resonance energy transfe Gloeckner CJ (2007), Chen TC (2014), Huttlin EL (2017), Ivanov AA (2017) 4
CDK6 0 CCND2 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Lin J (2001), Sweeney KJ (1997), Varjosalo M (2013), Ivanov AA (2017) 4
KAT2A 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATM 9 RELA 1 imaging technique Fang L (2014) 1
RASSF5 2 RASSF1 3 pull down, affinity chromatography technology Ortiz-Vega S (2002), Ortiz-Vega S (2002) 2
PRKDC 12 AKT1 1 enzymatic study, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, genetic interference Feng J (2004), Feng J (2004), Feng J (2004), Dragoi AM (2005), Dragoi AM (2005), Dragoi AM (2005), Shen JP (2017) 7
ARAF 0 HRAS 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS2 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RELA 1 BTRC 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology Spencer E (1999), Spencer E (1999), Coyaud E (2015), Coyaud E (2015), Huttlin EL (2017) 5
STK4 1 RASSF1 3 affinity chromatography technology, two hybrid, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe, affinity chromatography technology, fluorescent resonance energy transfe Behrends C (2010), Liu L (2007), Couzens AL (2013), Varjosalo M (2013), Huttlin EL (2015), Hauri S (2013), Hauri S (2013), Mo XL (2015), Huttlin EL (2017), Ivanov AA (2017) 10
ERBB2 6 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
DAXX 5 TERT 7 affinity chromatography technology Tang M (2015) 1
ID1 0 SUV39H1 0 two hybrid Weimann M (2013) 1
MDM2 2 SMURF1 4 pull down, affinity chromatography technology, affinity chromatography technology Nie J (2010), Nie J (2010), Nie J (2010) 3
RASSF1 3 KDM1A 2 affinity chromatography technology, two hybrid Weimann M (2013), Weimann M (2013) 2
GLIS2 2 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
SMURF1 4 TUBB 3 affinity chromatography technology Xie Y (2013) 1
XPO1 8 STK4 1 affinity chromatography technology Kirli K (2015) 1
RASSF1 3 SMURF1 4 pull down, affinity chromatography technology, affinity chromatography technology Lee MG (2016), Lee MG (2016), Lee MG (2016) 3
ARAF 0 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
SMURF1 4 TGFBR2 0 affinity chromatography technology, affinity chromatography technology Ebisawa T (2001), Johansson E (2016) 2
GLIS2 2 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 AURKB 2 affinity chromatography technology Couzens AL (2013) 1
MET 7 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 LATS1 3 affinity chromatography technology, affinity chromatography technology, enzymatic study, affinity chromatography technology, enzymatic study Matallanas D (2011), Guo C (2007), Guo C (2007), Hamilton G (2009), Chan EH (2005) 5
MYC 2 RELA 1 affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Chapman NR (2002), Covic M (2005), Ivanov AA (2017) 3
NF2 1 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 SMARCA4 19 pull down, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Marignani PA (2001), Marignani PA (2001), Brajenovic M (2004), Ivanov AA (2017) 4
MYC 2 MDM2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K6 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
DDB1 6 TERT 7 affinity chromatography technology Jung HY (2013) 1
NF2 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 ERBB2 6 genetic interference, fluorescent resonance energy transfe Shen JP (2017), Ivanov AA (2017) 2
AKT1 1 NF2 1 affinity chromatography technology, affinity chromatography technology, pull down, pull down, enzymatic study, pull down, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Tang X (2007), Tang X (2007), Tang X (2007), Tang X (2007), Laulajainen M (2011), Laulajainen M (2011), Laulajainen M (2011), Laulajainen M (2011), Ivanov AA (2017) 9
NF2 1 KDM1A 2 two hybrid Weimann M (2013) 1
LATS1 3 SMURF1 4 unspecified method Salah Z (2013) 1
STK4 1 MAP1B 5 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Behrends C (2010), Varjosalo M (2013), Hauri S (2013) 3
RASSF1 3 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 RASSF5 2 two hybrid, affinity chromatography technology, affinity chromatography technology Lee D (2012), Lee D (2012), Lee D (2012) 3
MYC 2 SKP1 0 affinity chromatography technology, affinity chromatography technology, two hybrid Koch HB (2007), von der Lehr N (2003), Wang J (2011) 3
BTRC 1 MAST2 4 bioid Coyaud E (2015) 1
CCNE1 1 CDK6 0 affinity chromatography technology, fluorescent resonance energy transfe Datta NS (1998), Ivanov AA (2017) 2
CDC20 1 TUBG1 2 affinity chromatography technology Kim AH (2009) 1
MYC 2 BTRC 1 affinity chromatography technology, enzymatic study Popov N (2010), Popov N (2010) 2
EPHA2 3 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 CDK6 0 unspecified method, x-ray crystallography, pull down, pull down, pull down, affinity chromatography technology, enzymatic study, pull down, affinity chromatography technology, pull down, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe Fahraeus R (1996), Russo AA (1998), Kaldis P (2001), Yarbrough WG (1999), Della Torre G (2001), Ezhevsky SA (1997), Ezhevsky SA (1997), Jones R (2007), Jones R (2007), Ramachandran N (2004), Varjosalo M (2013), Souza-Rodrigues E (2007), Huttlin EL (2015), Huttlin EL (2017), Ivanov AA (2017) 15
ATR 6 RASSF1 3 unspecified method Kim ST (1999) 1
RAF1 3 STK3 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology Kilili GK (2010), Matallanas D (2007), ONeill E (2004), ONeill E (2004), ONeill E (2004), ONeill E (2004), Romano D (2010), Romano D (2010) 8
CDKN2A 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 CDKN2B 0 affinity chromatography technology, fluorescent resonance energy transfe, affinity chromatography technology, two hybrid, affinity chromatography technology, fluorescent resonance energy transfe, affinity chromatography technology, fluorescent resonance energy transfe Varjosalo M (2013), Varjosalo M (2013), Varjosalo M (2013), Rolland T (2014), Huttlin EL (2015), Mo XL (2015), Huttlin EL (2017), Ivanov AA (2017) 8
NF2 1 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
BRAF 12 RASSF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 GRM1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 GSK3B 1 affinity chromatography technology Kirli K (2015) 1
RASSF1 3 HRAS 2 pull down, affinity chromatography technology Vos MD (2000), Vos MD (2000) 2
HUWE1 22 XPO1 8 affinity chromatography technology Thompson JW (2014) 1
ERBB2 6 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
DAXX 5 MDM2 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, unspecified method Ivanchuk SM (2008), Ivanchuk SM (2008), Tang J (2006), Tang J (2006), Tang J (2006), Song MS (2008), Zhao LY (2004), Tang J (2013), Tang J (2013), Zhao LY (2004), Zhang H (2013), Zhang H (2013), Li Z (2017) 13
RAF1 3 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 LATS1 3 pull down, x-ray crystallography, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, imaging technique, pull down Li Y (2015), Li Y (2015), Li Y (2015), Li Y (2015), Yin F (2013), Yin F (2013), Yin F (2013), Yin F (2013) 8
ARAF 0 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 LATS1 3 genetic interference Toyoshima M (2012) 1
TSC1 4 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 XPO1 8 affinity chromatography technology Jacob AG (2014) 1
SMURF1 4 BTRC 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, pull down Cui Y (2011), Zhang Y (2017), Zhang Y (2017), Zhang Y (2017), Zhang Y (2017) 5
DDB1 6 BTRC 1 affinity chromatography technology He YJ (2006) 1
RASSF1 3 ITPRIP 2 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Hauri S (2013), Huttlin EL (2017) 3
RASSF1 3 GSK3B 1 affinity chromatography technology Zhou X (2012) 1
MYC 2 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 STK4 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kim TY (2014), Kim TY (2014), Coyaud E (2015), Low TY (2014) 4
CUL1 7 AKT1 1 affinity chromatography technology Reitsma JM (2017) 1
LATS1 3 ITCH 1 affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, pull down, enzymatic study, unspecified method Salah Z (2011), Salah Z (2011), Salah Z (2011), Ho KC (2011), Adler JJ (2013), Ho KC (2011), Ho KC (2011), Ho KC (2011), Salah Z (2013) 9
MYC 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 MTHFR 2 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
RASSF1 3 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 STK4 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, bioid, affinity chromatography technology, bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, biochemical, fluorescent resonance energy transfe Behrends C (2010), Behrends C (2010), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Couzens AL (2013), Varjosalo M (2013), Varjosalo M (2013), Hauri S (2013), Hauri S (2013), Wan C (2015), Ivanov AA (2017) 12
CUL1 7 CDK4 2 affinity chromatography technology Bennett EJ (2010) 1
CDKN2A 1 ATR 6 affinity chromatography technology Rocha S (2005) 1
GRM1 4 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 MAP2K3 1 genetic interference, fluorescent resonance energy transfe, affinity chromatography technology, affinity chromatography technology Toyoshima M (2012), Ivanov AA (2017), Ivanov AA (2017), Ivanov AA (2017) 4
SKP2 2 BTRC 1 affinity chromatography technology, pull down, affinity chromatography technology Wei S (2012), Wei S (2012), Wei S (2012) 3
RASSF5 2 MAP1S 3 affinity chromatography technology, two hybrid, affinity chromatography technology Behrends C (2010), Rolland T (2014), Hauri S (2013) 3
FZR1 1 SMURF1 4 affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, pull down, affinity chromatography technology Kannan M (2012), Kannan M (2012), Wan L (2011), Wan L (2011), Wan L (2011), Wan L (2011) 6
ATM 9 MDM2 2 enzymatic study, enzymatic study Wang Z (2012), Luo H (2016) 2
RAF1 3 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 CUL4A 2 affinity chromatography technology Li Y (2011) 1
FBXW11 2 SKP1 0 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Suzuki H (2000), Sowa ME (2009), Watanabe N (2004), Fuchs SY (1999), Tan P (1999), Herter JR (2002), Lievens S (2009), Lievens S (2009), DAnnibale S (2014), Kim TY (2014), Kim TY (2014), Coyaud E (2015), Low TY (2014), Hein MY (2015), Liu X (2017), Hauri S (2016) 16
STK11 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 TUBB 3 pull down Liu L (2003) 1
LATS2 1 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 HUWE1 22 affinity chromatography technology, affinity chromatography technology Low TY (2014), Low TY (2014) 2
CDC20 1 AURKA 1 affinity chromatography technology, affinity chromatography technology Farruggio DC (1999), Katayama H (2012) 2
RASSF1 3 CDKN2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 FZR1 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, pull down, affinity chromatography technology, pull down, affinity chromatography technology Calvisi DF (2009), Cen B (2010), Bashir T (2004), Bashir T (2004), Hu D (2011), Fukushima H (2013), Gao D (2009), Gao D (2009), Inuzuka H (2012), Inuzuka H (2012), Inuzuka H (2012), Huttlin EL (2017) 12
ERBB2 6 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 TUBG1 2 affinity chromatography technology, enzymatic study Thirunavukarasou A (2015), Thirunavukarasou A (2015) 2
MAP2K6 2 RAF1 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
FBXW11 2 MDM2 2 affinity chromatography technology Inuzuka H (2010) 1
NF2 1 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
C8orf33 3 RASSF1 3 two hybrid Vinayagam A (2011) 1
CUL4A 2 CUL1 7 biochemical He YJ (2006) 1
SKP2 2 ATM 9 affinity chromatography technology Wu J (2012) 1
RASSF1 3 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
AKT1 1 BRAF 12 affinity chromatography technology, affinity chromatography technology, enzymatic study, imaging technique, fluorescent resonance energy transfe Guan KL (2000), Guan KL (2000), Guan KL (2000), Chen TC (2014), Ivanov AA (2017) 5
KDELR2 1 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 AURKA 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TERT 7 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 LATS1 3 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Ni W (2017), Ni W (2017), Deng J (2016) 3
CNKSR1 2 RASSF1 3 two hybrid, affinity chromatography technology, affinity chromatography technology, imaging technique Rabizadeh S (2004), Rabizadeh S (2004), Rabizadeh S (2004), Rabizadeh S (2004) 4
FGFR4 6 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 SUV39H1 0 affinity chromatography technology, two hybrid Weimann M (2013), Weimann M (2013) 2
MYC 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
AKT1 1 STK4 1 enzymatic study, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, pull down Yuan Z (2010), Yuan Z (2010), Yuan Z (2010), Cinar B (2007), Cinar B (2007), Cinar B (2007), Cinar B (2007), Cinar B (2007) 8
ATR 6 ATM 9 unspecified method, enzymatic study Kim ST (1999), Stiff T (2006) 2
CCND2 2 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 E4F1 3 two hybrid, pull down, affinity chromatography technology, genetic interference, pull down Fenton SL (2004), Fenton SL (2004), Fenton SL (2004), Fenton SL (2004), Fenton SL (2004) 5
HRAS 2 RASSF5 2 pull down, two hybrid Vavvas D (1998), Corominas R (2014) 2
NF2 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
GSK3B 1 BTRC 1 affinity chromatography technology, enzymatic study, affinity chromatography technology, pull down Kitagawa M (1999), Gao C (2014), Gao C (2014), Gao C (2014) 4
BTRC 1 FZR1 1 affinity chromatography technology, affinity chromatography technology, enzymatic study Fukushima H (2013), Fukushima H (2013), Fukushima H (2013) 3
ERBB2 6 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
BRAF 12 MAP2K6 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2A 1 HUWE1 22 affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, unspecified method Chen D (2005), Chen D (2005), Chen D (2005), Chen D (2005), Chio II (2012), Hein MY (2015), Lee CK (2015), Lee CK (2015), Sander B (2017) 9
MYC 2 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
MAP2K3 1 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 CCND2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
HUWE1 22 DDB1 6 affinity chromatography technology, affinity chromatography technology Thompson JW (2014), Yi J (2015) 2
LATS2 1 STK3 1 affinity chromatography technology, affinity chromatography technology, enzymatic study Bao Y (2009), Couzens AL (2013), Hoa L (2016) 3
FBXW11 2 VAPA 1 affinity chromatography technology Kim TY (2014) 1
MDM2 2 ITCH 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Kubo N (2010), Kubo N (2010), Wu H (2015), Wu H (2015) 4
ARAF 0 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 ATRX 7 pull down Kamran M (2017) 1
RASSF1 3 LRP6 3 affinity chromatography technology, affinity chromatography technology Huttlin EL (2015), Huttlin EL (2017) 2
MAP2K6 2 GLIS2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
HUWE1 22 MDM2 2 affinity chromatography technology, enzymatic study Kurokawa M (2013), Kurokawa M (2013) 2
CDK6 0 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CNKSR1 2 STK3 1 affinity chromatography technology Rabizadeh S (2004) 1
AURKA 1 CDKN2A 1 affinity chromatography technology Ewing RM (2007) 1
RAF1 3 HUWE1 22 affinity chromatography technology Jang ER (2014) 1
LATS1 3 RAF1 3 affinity chromatography technology Matallanas D (2007) 1
CDKN2A 1 E4F1 3 two hybrid, affinity chromatography technology Rizos H (2003), Rizos H (2003) 2
RAF1 3 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
TEAD2 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
BRAF 12 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCNE1 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
FGFR4 6 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 MET 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 CDKN2A 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, pull down, pull down, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, unspecified method, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, fluorescent resonance energy transfe Zhang Y (2003), Zhang Y (2003), Zhang Y (2003), Zhang Y (1998), Zhang Y (1998), Zhang Y (1998), Zhang Y (1998), Zhang Y (1998), Clark PA (2002), Clark PA (2002), Clark PA (2002), Pomerantz J (1998), Ivanchuk SM (2008), Wang C (2005), Wang X (2001), Midgley CA (2000), Shen J (2011), Li L (2010), Li L (2010), Li X (2011), Woods YL (2004), Bouska A (2008), Lindstroem MS (2007), Lohrum MA (2000), Wang J (2006), Wang J (2006), Wang J (2006), Drago-Ferrante R (2008), Schuster K (2007), Hogan C (2008), Rizos H (2000), Gargano B (2008), Kamijo T (1998), Wang S (2010), Jones R (2007), Stott FJ (1998), Lo D (2014), Pimkina J (2009), Blattner C (2002), Leslie PL (2015), Bothner B (2003), Ivanov AA (2017) 42
MET 7 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 KDELR2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 AURKB 2 affinity chromatography technology Wu J (2015) 1
MYC 2 KDM1A 2 two hybrid Weimann M (2013) 1
MYC 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
VAPA 1 RASSF1 3 affinity chromatography technology Huttlin EL (2017) 1
CCND2 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
XPO1 8 RAF1 3 affinity chromatography technology Kirli K (2015) 1
FZR1 1 KAT2A 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 TUBG1 2 pull down Liu L (2003) 1
NF2 1 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
SKP2 2 CDC20 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Cen B (2010), Bashir T (2004), Kelly A (2014), Craney A (2016), Huttlin EL (2017) 5
KAT2A 1 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK3 1 MAP1B 5 affinity chromatography technology, affinity chromatography technology Varjosalo M (2013), Hauri S (2013) 2
RASSF1 3 TGFBR2 0 affinity chromatography technology Pefani DE (2016) 1
PRKDC 12 KAT2A 1 enzymatic study Barlev NA (1998) 1
GRM1 4 ERBB2 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
BTRC 1 STK4 1 affinity chromatography technology, bioid, affinity chromatography technology Coyaud E (2015), Coyaud E (2015), Huttlin EL (2017) 3
ATRX 7 PRKDC 12 affinity chromatography technology Leung JW (2013) 1
RASSF1 3 DDB1 6 affinity chromatography technology, affinity chromatography technology, pull down Jiang L (2011), Jiang L (2011), Jiang L (2011) 3
AURKB 2 CDC20 1 affinity chromatography technology, affinity chromatography technology Nguyen HG (2005), Nguyen HG (2005) 2
FZR1 1 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
KDELR2 1 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
ATM 9 RASSF1 3 unspecified method Kim ST (1999) 1
CCND2 2 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
GLIS2 2 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
MYC 2 DDB1 6 affinity chromatography technology Choi SH (2010) 1
ATRX 7 DAXX 5 affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, imaging technique, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, x-ray crystallography Xue Y (2003), Xue Y (2003), Xue Y (2003), Xue Y (2003), Xue Y (2003), Ishov AM (2004), Tang J (2004), Tang J (2004), Tang J (2004), Tang J (2004), Lukashchuk V (2010), Lukashchuk V (2010), Everett RD (2013), Everett RD (2013), Leung JW (2013), Delbarre E (2013), Hein MY (2015), Tang M (2015), Tang M (2015), Valle-Garcia D (2016), Li Z (2017) 21
KDELR2 1 LATS2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CNKSR1 2 RAF1 3 pull down Rabizadeh S (2004) 1
SKP2 2 CUL1 7 affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, pull down, x-ray crystallography, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, biochemical, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Li X (2003), Min KW (2003), Lisztwan J (1998), Lisztwan J (1998), Marti A (1999), Zheng N (2002), Menon S (2008), Chew EH (2007), Chew EH (2007), Ji P (2006), Sabile A (2006), Tan P (1999), Lin HK (2009), Nie L (2011), Chua YS (2011), Huang Z (2004), Wu J (2012), Koyama-Nasu R (2007), Bashir T (2010), Saiga T (2009), Choo YY (2011), Jonason JH (2007), Jonason JH (2007), Bennett EJ (2010), Michel JJ (1998), Carrano AC (1999), Lyapina SA (1998), Lyapina SA (1998), Wu J (2012), Yu ZK (1998), Yu ZK (1998), Rodier G (2008), Swarnalatha M (2013), Cordero-Espinoza L (2013), Yumimoto K (2013), Chung FZ (2014), Zhou W (2014), Zhou W (2014), Yumimoto K (2012), Zhang S (2016), Zhang S (2016), Huttlin EL (2017), Kuchay S (2017), Reitsma JM (2017), Reitsma JM (2017), Ma X (2017) 46
TUBG1 2 AURKA 1 affinity chromatography technology, affinity chromatography technology Molli PR (2010), Molli PR (2010) 2
ERBB2 6 XPO1 8 affinity chromatography technology, affinity chromatography technology Giri DK (2005), Giri DK (2005) 2
STK4 1 AURKB 2 affinity chromatography technology Couzens AL (2013) 1
FZR1 1 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
TGFBR1 2 ITCH 1 affinity chromatography technology Bai Y (2004) 1
MAP1S 3 RASSF1 3 affinity chromatography technology, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Liu L (2005), Dallol A (2004), Dallol A (2004), Huttlin EL (2015), Hauri S (2013), Huttlin EL (2017) 6
STK4 1 XPO6 2 affinity chromatography technology Hauri S (2013) 1
GRM1 4 CDK4 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK4 1 MAP1S 3 bioid, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Couzens AL (2013), Varjosalo M (2013), Hauri S (2013), Hauri S (2013) 4
KDELR2 1 MYC 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
TEAD2 2 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
FZR1 1 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK4 2 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
NF2 1 LATS2 1 x-ray crystallography, affinity chromatography technology, fluorescent resonance energy transfe, affinity chromatography technology Li Y (2015), Yin F (2013), Ivanov AA (2017), Zhu C (2018) 4
RHOA 0 MDM2 2 affinity chromatography technology, affinity chromatography technology Ma J (2012), Ma J (2012) 2
EPHA2 3 CDKN2B 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDK6 0 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
GRM1 4 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
AURKA 1 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CUL4A 2 SKP1 0 affinity chromatography technology, affinity chromatography technology Bennett EJ (2010), Gastaldello S (2012) 2
MET 7 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDKN2B 0 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDC20 1 TUBB 3 affinity chromatography technology Fogeron ML (2013) 1
RASSF1 3 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
ARAF 0 FGFR4 6 fluorescent resonance energy transfe Ivanov AA (2017) 1
STK11 2 GSK3B 1 affinity chromatography technology Yan D (2012) 1
RELA 1 PRKDC 12 affinity chromatography technology Veena MS (2014) 1
MET 7 TERT 7 fluorescent resonance energy transfe Ivanov AA (2017) 1
KAT2A 1 CDK6 0 fluorescent resonance energy transfe Ivanov AA (2017) 1
CDC20 1 BTRC 1 affinity chromatography technology Guardavaccaro D (2008) 1
RASSF1 3 TGFBR1 2 affinity chromatography technology Pefani DE (2016) 1
RELA 1 TERT 7 affinity chromatography technology Akiyama M (2003) 1
RELA 1 EPHA2 3 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 STK11 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
TERT 7 CCNE1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RAF1 3 MAP2K3 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
LATS2 1 SKP2 2 affinity chromatography technology Couzens AL (2013) 1
MAP2K6 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 AKT1 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
MDM2 2 RASSF1 3 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Song MS (2008), Zhang H (2013), Zhang H (2013) 3
GLIS2 2 NF2 1 fluorescent resonance energy transfe Ivanov AA (2017) 1
RASSF1 3 RASSF1 3 affinity chromatography technology, fluorescent resonance energy transfe, fluorescent resonance energy transfe Ortiz-Vega S (2002), Mo XL (2015), Ivanov AA (2017) 3
RASSF1 3 TSC1 4 fluorescent resonance energy transfe Ivanov AA (2017) 1
CCND2 2 TEAD2 2 fluorescent resonance energy transfe Ivanov AA (2017) 1
VAPB 2 STK3 1 affinity chromatography technology Huttlin EL (2017) 1
MYC 2 SUV39H1 0 genetic interference, affinity chromatography technology Toyoshima M (2012), Hauri S (2016) 2
CUL4A 2 NF2 1 affinity chromatography technology, affinity chromatography technology, affinity chromatography technology Huang J (2008), Huang J (2008), Li W (2010) 3