PsyMuKB

PPI network (data source: BioGrid)

A gene is determined as “expressed” when its expression values are above the pre-determined cutoff, which is the mean normalized expression(base 2 log of (TPM+1)) +1 in all brain tissue from GTEx v7 or BrainSpan data.

A protein is determined as “expressed” when its expression values are above the pre-determined cutoff, which is the normalized expression (base 10 log of iBAQ intensity) ≥0.5 in at least one brain tissue from ProteomicsDB data. Otherwise, a gene or protein is determined as either with below-cutoff expressions or no available data.

	The queried gene/protein
	The interacting partner is expressed at mRNA-level
	The interacting partner is expressed at protein-level
	The interacting partner is expressed at both mRNA and protein level
	The interacting partner is with either below-cutoff expressions or no expression data at both mRNA and protein level
	The interacting partner is hit by coding DNMs
	Physical interaction between queried gene/protein and its partner
	Physical interaction between two interacting partners

Symbol A	GeneA coding DNM count	Symbol B	GeneB coding DNM count	Interaction detection method	Publication	Evidence
MAP2K5	1	MDM4	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MET	7	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	FN1	17	imaging technique	Chen TC (2014)	1
PDGFRA	3	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2A	1	BRCA1	7	affinity chromatography technology, affinity chromatography technology, imaging technique	He L (2008), He L (2008), He L (2008)	3
RAF1	3	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	NF2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	BRCA1	7	two hybrid	Hill SJ (2014)	1
MAP2K5	1	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	CDK6	0	affinity chromatography technology, fluorescent resonance energy transfe	Varjosalo M (2013), Ivanov AA (2017)	2
HGF	1	CCND2	2	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
ERBB2	6	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
BRCA1	7	MYC	2	affinity chromatography technology, imaging technique, affinity chromatography technology, two hybrid, pull down, affinity chromatography technology, two hybrid, affinity chromatography technology, two hybrid, affinity chromatography technology, affinity chromatography technology	Li H (2002), Xiong J (2003), Xiong J (2003), Wang Q (1998), Wang Q (1998), Wang Q (1998), Harte MT (2010), Harte MT (2010), Xiong J (2003), Xiong J (2003), Zhou C (2003)	11
PDGFRA	3	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
YWHAG	5	HGF	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	RAF1	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
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
HGF	1	NF2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	NF2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
BRCA1	7	ARNT	1	affinity chromatography technology, pull down, affinity chromatography technology	Kang HJ (2006), Kang HJ (2006), Kang HJ (2006)	3
HGF	1	SDC2	0	pull down	Lyon M (1994)	1
STK11	2	LATS2	1	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
CDK6	0	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
TEAD2	2	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
FGFR4	6	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MET	7	HGF	1	pull down, enzymatic study, affinity chromatography technology, affinity chromatography technology, fluorescent resonance energy transfe	Comoglio PM (1993), Comoglio PM (1993), Naldini L (1991), Goldoni S (2009), Ivanov AA (2017)	5
MAP2K6	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2B	0	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MET	7	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	LATS2	1	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
RAF1	3	NF2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	RAF1	3	pull down, affinity chromatography technology, fluorescent resonance energy transfe	Alexandrov I (1997), Koch HB (2007), Ivanov AA (2017)	3
MAP2K5	1	HGF	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	FN1	17	affinity chromatography technology	Agrawal P (2010)	1
MAP2K5	1	RAF1	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2A	1	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	CDKN2A	1	affinity chromatography technology, fluorescent resonance energy transfe	Jackson MW (2001), Ivanov AA (2017)	2
ERBB2	6	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	MYC	2	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
TEAD2	2	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK6	0	MYC	2	enzymatic study, fluorescent resonance energy transfe	Anders L (2011), Ivanov AA (2017)	2
RAF1	3	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2A	1	FN1	17	two hybrid	Wang J (2011)	1
MAP2K5	1	PDGFRA	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
LATS2	1	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
YWHAG	5	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	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
CDK6	0	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
SDC1	0	HGF	1	pull down	Derksen PW (2002)	1
STK11	2	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CCND2	2	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	MYC	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MET	7	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	MYC	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	MET	7	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	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
GLIS2	2	MDM4	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	MET	7	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
SDC2	0	FN1	17	pull down	Kusano Y (2000)	1
HGF	1	GLIS2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CCND2	2	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	PDGFRA	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	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
MAP2K5	1	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
BRCA1	7	CDK4	2	pull down, enzymatic study, enzymatic study	Wang H (1997), Kehn K (2007), Miralem T (2003)	3
HGF	1	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ERBB2	6	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2A	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MDM4	0	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	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
BRCA1	7	PDGFRA	3	genetic interference	Shen JP (2017)	1
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
ARNT	1	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	MDM4	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
LATS2	1	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ERBB2	6	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
SDC1	0	EPHA2	3	affinity chromatography technology	Huttlin EL (2017)	1
ARNT	1	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
YWHAG	5	RAF1	3	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), Autieri MV (1999), Van Der Hoeven PC (2000), Rajalingam K (2005), Zhu J (2005), So J (2015), Ivanov AA (2017)	7
HGF	1	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MET	7	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	CDK4	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
GLIS2	2	ARNT	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	CDK4	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
LATS2	1	YWHAG	5	affinity chromatography technology, affinity chromatography technology, enzymatic study, fluorescent resonance energy transfe	Okada N (2011), Okada N (2011), Okada N (2011), Ivanov AA (2017)	4
CDK4	2	ERBB2	6	genetic interference, fluorescent resonance energy transfe	Shen JP (2017), Ivanov AA (2017)	2
MAP2K5	1	GLIS2	2	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
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
GLIS2	2	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
FN1	17	YWHAG	5	affinity chromatography technology	Humphries JD (2009)	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
RAF1	3	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	MAP2K5	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK4	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
STK11	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
YWHAG	5	MDM4	0	affinity chromatography technology, affinity chromatography technology, pull down, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology, affinity chromatography technology	Jin Y (2006), Jin Y (2006), Jin Y (2006), Lee JH (2011), Lee JH (2011), Lee JH (2012), He G (2014)	7
HGF	1	ADAMTSL4	6	two hybrid	Rolland T (2014)	1
LATS2	1	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ERBB2	6	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	RAF1	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
ARNT	1	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	CDKN2A	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	MYC	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDKN2A	1	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	RAF1	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	CCND2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MYC	2	MET	7	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	MEOX2	2	two hybrid	Rolland T (2014)	1
HGF	1	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	GLIS2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK6	0	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
NF2	1	MDM4	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
RAF1	3	EPHA2	3	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
MET	7	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CCND2	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CCND2	2	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
PDGFRA	3	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	ERBB2	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
TEAD2	2	FGFR4	6	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K5	1	MET	7	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
RAF1	3	PDGFRA	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CLEC3B	0	HGF	1	pull down	Westergaard UB (2003)	1
MAP2K5	1	MYC	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
EPHA2	3	CDKN2B	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
MAP2K6	2	HGF	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CDK6	0	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	HGF	1	x-ray crystallography	Lietha D (2001)	1
MET	7	CDK6	0	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	FKBP7	2	affinity chromatography technology, affinity chromatography technology	Huttlin EL (2015), Huttlin EL (2017)	2
ARNT	1	EPHA2	3	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	LATS2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
HGF	1	STK11	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1
GLIS2	2	NF2	1	fluorescent resonance energy transfe	Ivanov AA (2017)	1
CCND2	2	TEAD2	2	fluorescent resonance energy transfe	Ivanov AA (2017)	1