Gene Detail

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Variant	Impact	Protein Effect	Variant Description	Associated with drug Resistance
A106T	missense	no effect - predicted	MAP2K1 A106T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). A106T demonstrates phosphorylation of Erk similar to wild-type Map2k1 in cell culture (PMID: 25164765, PMID: 32641410) and therefore, is predicted to have no effect on Map2k1 protein function.
A106_I107del	deletion	gain of function - predicted	MAP2K1 A106_I107del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 106 to 107 (UniProt.org). A106_I107del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
A132V	missense	unknown	MAP2K1 A132V lies within the protein kinase domain of the Map2k1 protein (UniProt.org). A132V has been identified in sequencing studies (PMID: 22895193, PMID: 25839328), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
A158T	missense	unknown	MAP2K1 A158T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). A158T has been identified in the scientific literature (PMID: 25256751), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
A347T	missense	unknown	MAP2K1 A347T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). A347T has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
A390T	missense	unknown	MAP2K1 A390T does not lie within any known functional domains of the Map2k1 protein (UniProt.org). A390T has been identified in sequencing studies (PMID: 29340109), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
A52V	missense	no effect - predicted	MAP2K1 A52V lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). A52V induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410, PMID: 28115009), and therefore, is predicted to have no effect on Map2k1 protein function.
A76fs	frameshift	loss of function - predicted	MAP2K1 A76fs results in a change in the amino acid sequence of the Map2k1 protein beginning at aa 76 of 393, likely resulting in premature truncation of the functional protein (UniProt.org). Due to the loss of the protein kinase domain (UniProt.org), A76fs is predicted to result in a loss of Map2k1 function.
A76T	missense	unknown	MAP2K1 A76T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). A76T has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
A95_R96del	deletion	no effect - predicted	MAP2K1 A95_R96del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 95 to 96 (UniProt.org). A95_R96del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
act mut	unknown	gain of function	MAP2K1 act mut indicates that this variant results in a gain of function in the Map2k1 protein. However, the specific amino acid change has not been identified.
amp	none	no effect	MAP2K1 amp indicates an increased number of copies of the MAP2K1 gene. However, the mechanism causing the increase is unspecified.
C121G	missense	unknown	MAP2K1 C121G lies within the protein kinase domain of the Map2k1 protein (UniProt.org). C121G has been identified in sequencing studies (PMID: 31745173), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
C121S	missense	gain of function	MAP2K1 C121S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). C121S confers a gain of function on the Map2k1 protein as demonstrated by increased Erk1/2 (PMID: 25899310) and Mek phosphorylation in culture and has been demonstrated to confer acquired resistance to Raf and Mek inhibitors (PMID: 21383288, PMID: 24448821, PMID: 29483135, PMID: 29753091).	Y
D136Y	missense	unknown	MAP2K1 D136Y lies within the protein kinase domain of the Map2k1 protein (UniProt.org). D136Y has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
D190Y	missense	no effect - predicted	MAP2K1 D190Y lies within the protein kinase domain of the Map2k1 protein (UniProt.org). D190Y induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
D336H	missense	no effect - predicted	MAP2K1 D336H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). D336H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
D351G	missense	unknown	MAP2K1 D351G lies within the protein kinase domain of the Map2k1 protein (UniProt.org). D351G has been identified in the scientific literature (PMID: 26582713, PMID: 24755471), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
D351N	missense	unknown	MAP2K1 D351N lies within the protein kinase domain of the Map2k1 protein (UniProt.org). D351N has been identified in sequencing studies (PMID: 25363767), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
D65N	missense	gain of function - predicted	MAP2K1 D65N lies adjacent to the protein kinase domain of the Map2k1 protein (UniProt.org). D65N is predicted to confer a gain of function to the Map2k1 protein as demonstrated by increased Mek phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
D67N	missense	gain of function	MAP2K1 D67N does not lie within any known functional domains of the Map2k1 protein (UniProt.org). D67N results in constitutive activation of Erk signaling in cell culture (PMID: 25049390) and slightly increased Erk and Mek phosphorylation in cell culture (PMID: 29483135).
E102_I103del	deletion	gain of function	MAP2K1 E102_I103del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 102 to 103 (UniProt.org). E102_I103del confers a gain of function to the Map2k1 protein as demonstrated by activity independent of Raf and increased phosphorylation of Mek and Erk relative to wild-type Map2k1 in vitro (PMID: 29483135), increased Erk phosphorylation in cell culture (PMID: 32036070, PMID: 25202140) and increased Mek homodimerization in cell culture (PMID: 30377225).
E114_L115del	deletion	no effect - predicted	MAP2K1 E114_L115del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 114 to 115 (UniProt.org). E114_L115del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
E120Q	missense	gain of function - predicted	MAP2K1 E120Q lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E120Q is predicted to confer a gain of function to the Map2k1 protein as demonstrated by increased Mek phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
E144K	missense	gain of function	MAP2K1 E144K lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E144K confers a gain of function to the Map2k1 protein as demonstrated by increased Mek and Erk phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
E203D	missense	no effect - predicted	MAP2K1 E203D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E203D induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
E203K	missense	gain of function	MAP2K1 E203K lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E203K results in constitutive phosphorylation of Erk, is transforming in cell culture (PMID: 22197931, PMID: 29483135), and increases autophosphorylation of Map2k1 (PMID: 29753091).	Y
E203Q	missense	no effect	MAP2K1 E203Q lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E203Q has been demonstrated to have autohphosphorylation and kinase activities similar to wild-type Map2k1 in in vitro assays (PMID: 29753091).
E203V	missense	gain of function - predicted	MAP2K1 E203V lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E203V results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
E320A	missense	unknown	MAP2K1 E320A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E320A has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
E333A	missense	no effect - predicted	MAP2K1 E333A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). E333A induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
E41_F53del	deletion	unknown	MAP2K1 E41_F53del results in the deletion of 13 amino acids in the Map2k1 protein from amino acids 41 to 53 (UniProt.org). E41_F53del has been identified in the scientific literature (PMID: 32483240), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Dec 2020).
E41_L54del	deletion	gain of function	MAP2K1 E41_L54del results in the deletion of 14 amino acids in the Map2k1 protein from amino acids 41 to 54 (UniProt.org). E41_L54del results in increased Map2k1 nuclear localization, elevated Erk phosphorylation, and cell transformation in culture, and promotes tumorigenesis and confers resistance to ROS1 tyrosine kinase inhibitors in the context of a ROS1 fusion (PMID: 32122926).	Y
E44G	missense	no effect	MAP2K1 E44G lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). E44G does not result in constitutive and ligand-independent activation of Map2k1 or activation of Erk at levels different than wild-type Map2k1 (PMID: 28166211).
E51_Q58del	deletion	gain of function	MAP2K1 E51_Q58del results in the deletion of eight amino acids in the Map2k1 protein from amino acids 51 to 58 (UniProt.org). E51_Q58del results in activation of Map2k1 as indicated by increased Erk and Mek phosphorylation in cell culture (PMID: 29483135).
F129L	missense	gain of function	MAP2K1 F129L lies within the protein kinase domain of the Map2k1 protein (UniProt.org). F129L confers a gain of function to the Map2k1 protein as demonstrated by increased kinase activity compared to wild-type, activation of downstream Erk signaling, and increased binding affinity to c-Raf (PMID: 21705440) and also demonstrates resistance to some Mek and Braf inhibitors (PMID: 29753091).	Y
F53C	missense	gain of function - predicted	MAP2K1 F53C lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53C results in increased Erk1/2 phosphorylation in vitro and has been associated with resistance to BRAF inhibitors (PMID: 30341394), and therefore, is predicted to result in a gain of Map2k1 protein function.	Y
F53I	missense	gain of function - predicted	MAP2K1 F53I lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53I results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
F53L	missense	gain of function	MAP2K1 F53L lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53L results in activation of Map2k1 as indicated by increased Erk and Mek phosphorylation in cell culture (PMID: 25164765, PMID: 29483135) and also demonstrates resistance to some Mek and Braf inhibitors (PMID: 29753091).	Y
F53S	missense	gain of function	MAP2K1 F53S lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53S demonstrates phosphorylation profile similar to wild-type Map2k1 (PMID: 29753091), and results in increased Erk phosphorylation in cell culture (PMID: 16439621, PMID: 12370306).
F53V	missense	gain of function - predicted	MAP2K1 F53V lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53V results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
F53Y	missense	gain of function - predicted	MAP2K1 F53Y lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). F53Y results in increased Erk phosphorylation in culture (PMID: 30776432), and therefore, is predicted to lead to a gain of Map2k1 protein function.
F53_Q58del	deletion	gain of function	MAP2K1 F53_Q58del results in the deletion of six amino acids in the Map2k1 protein from amino acids 53 to 58 (UniProt.org). F53_Q58del results in activation of Map2k1 as indicated by increased Erk and Mek phosphorylation in cell culture (PMID: 26566875, PMID: 29483135).
F53_Q58delinsL	indel	unknown	MAP2K1 F53_Q58delinsL results in a deletion of six amino acids of the Map2k1 protein from amino acids 53 to 58, combined with the insertion of a leucine (L) at the same site (UniProt.org). F53_Q58delinsL has been identified in the scientific literature (PMID: 24982505), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
F68L	missense	unknown	MAP2K1 F68L lies within the protein kinase domain of the Map2k1 protein (UniProt.org). F68L has been identified in the scientific literature (PMID: 26566875), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
fusion	fusion	unknown	MAP2K1 fusion indicates a fusion of the MAP2K1 gene, but the fusion partner is unknown.
G128C	missense	unknown	MAP2K1 G128C lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G128C has been identified in sequencing studies (PMID: 30933438, PMID: 26960398), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
G128D	missense	gain of function - predicted	MAP2K1 G128D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G128D is predicted to confer a gain of function to the Map2k1 protein as indicated by increased Erk phosphorylation (PMID: 28115009, PMID: 25899310).
G128N	missense	no effect - predicted	MAP2K1 G128N lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G128N has been demonstrated to have autophosphorylation levels similar to wild-type Map2k1 in an in-vitro assay (PMID: 29753091), and therefore, is predicted to have no effect on Map2k1 protein function.
G128R	missense	unknown	MAP2K1 G128R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G128R has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
G128V	missense	unknown	MAP2K1 G128V lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G128V has been demonstrated to have autophosphorylation levels similar to wild-type Map2k1 in an in vitro assay (PMID: 29753091) and has also been described as a drug resistance mutation (PMID: 24265153), but has shown increased Erk phosphorylation, enhanced cell cycle progression, increased colony formation, and elevated autophagy induction compared to wild-type Map2k1 in culture (PMID: 31972311), and therefore, its effect on Map2k1 protein function is unknown.	Y
G294E	missense	unknown	MAP2K1 G294E lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G294E has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
G294R	missense	no effect - predicted	MAP2K1 G294R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G294R induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
G301*	nonsense	unknown	MAP2K1 G301* results in a premature truncation of the Map2k1 protein at amino acid 301 of 393 (UniProt.org). G301* has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
G79V	missense	unknown	MAP2K1 G79V lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G79V has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
G80S	missense	unknown	MAP2K1 G80S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). G80S has been identified in sequencing studies (PMID: 25344691), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
H100_L101del	deletion	no effect - predicted	MAP2K1 H100_L101del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 100 to 101 (UniProt.org). H100_L101del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
H119P	missense	unknown	MAP2K1 H119P lies within the protein kinase domain of the Map2k1 protein (UniProt.org). H119P has been described as a drug resistance mutation (PMID: 19915144), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).	Y
H119Q	missense	gain of function - predicted	MAP2K1 H119Q lies within the protein kinase domain of the Map2k1 protein (UniProt.org). H119Q results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
H119Y	missense	gain of function - predicted	MAP2K1 H119Y lies within the protein kinase domain of the Map2k1 protein (UniProt.org). H119Y results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
I103N	missense	gain of function - predicted	MAP2K1 I103N lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I103N is predicted to confer a gain of function on the Map2k1 protein as demonstrated by increased Map2k1 autophosphorylation in cell culture (PMID: 29753091), and is also associated with resistance to Mek inhibitors (PMID: 12370306, PMID: 19915144).	Y
I103_K104del	deletion	gain of function	MAP2K1 I103_K104del results in the deletion of two amino acids in the Map2k1 protein from amino acids 103 to 104 (UniProt.org). I103_K104del confers a gain of function to the Map2k1 protein as demonstrated by activity independent of Raf and increased phosphorylation of Mek and Erk relative to wild-type Map2k1 in vitro (PMID: 29483135), enhanced Mek and Erk phosphorylation in cell culture (PMID: 28935960, PMID: 30377225).
I104_P105del	deletion	gain of function - predicted	MAP2K1 I104_P105del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 104 to 105 (UniProt.org). I104_P105del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
I107_R108del	deletion	gain of function - predicted	MAP2K1 I107_R108del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 107 to 108 (UniProt.org). I107_R108del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
I111A	missense	gain of function - predicted	MAP2K1 I111A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I111A is predicted to confer a gain of function to the Map2k1 protein, as demonstrated by increased Map2k1 kinase activity in an in-vitro assay and is also associated with resistance to inhibitors (PMID: 12370306).	Y
I111N	missense	gain of function - predicted	MAP2K1 I111N lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I111N is predicted to confer a gain of function to the Map2k1 protein as demonstrated by increased Map2k1 kinase activity in an in-vitro assay and is also associated with resistance to inhibitors (PMID: 12370306).	Y
I111P	missense	gain of function - predicted	MAP2K1 I111P lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I111P is predicted to confer a gain of function to the Map2k1 protein, as demonstrated by increased Map2k1 kinase activity in an in-vitro assay and is also associated with resistance to inhibitors (PMID: 12370306).	Y
I111R	missense	gain of function - predicted	MAP2K1 I111R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I111R is predicted to confer a gain of function to the Map2k1 protein, as demonstrated by increased Map2k1 kinase activity in an in-vitro assay and is also associated with resistance to inhibitors (PMID: 12370306).	Y
I111S	missense	gain of function	MAP2K1 I111S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I111S confers a gain of function on the Map2k1 protein as demonstrated by increased autophosphorylation and Erk phosphorylation and also demonstrates resistance to some Mek and Braf inhibitors (PMID: 29753091).	Y
I111_I112del	deletion	gain of function - predicted	MAP2K1 I111_I112del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 111 to 112 (UniProt.org). I111_I112del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
I112_R113del	deletion	gain of function - predicted	MAP2K1 I112_R113del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 112 to 113 (UniProt.org). I112_R113del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
I204T	missense	gain of function	MAP2K1 I204T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I204T confers a gain of function to the Map2k1 protein as indicated by transformation activity and increased phosphorylation of Erk1/2 in culture (PMID: 22327936).
I310L	missense	no effect - predicted	MAP2K1 I310L lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I310L induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
I99G	missense	gain of function - predicted	MAP2K1 I99G lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I99G results in increased Erk2 phosphorylation and confers resistance to some Mek and Braf inhibitors in culture (PMID: 31925410), and therefore, is predicted to result in a gain of Map2k1 protein function.	Y
I99M	missense	unknown	MAP2K1 I99M lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I99M has been identified in the scientific literature (PMID: 31925410), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Nov 2020).
I99T	missense	gain of function - predicted	MAP2K1 I99T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). I99T results in increased Erk2 phosphorylation and confers resistance to some Mek and Braf inhibitors in culture (PMID: 31925410), and therefore, is predicted to result in a gain of Map2k1 protein function.	Y
I99_K104del	deletion	gain of function	MAP2K1 I99_K104del results in the deletion of six amino acids in the Map2k1 protein from amino acids 99 to 104 (UniProt.org). I99_K104del confers a gain of function to the Map2k1 protein as demonstrated by activity, independent of Raf, and increased phosphorylation of Mek and Erk relative to wild-type Map2k1 in vitro (PMID: 29483135).
I9Sfs*3	frameshift	loss of function - predicted	MAP2K1 I9Sfs3 indicates a shift in the reading frame starting at amino acid 9 and terminating 3 residues downstream causing a premature truncation of the 393 amino acid Map2k1 protein (UniProt.org). Due to the loss of the protein kinase domain (UniProt.org), I9Sfs3 is predicted to lead to a loss of Map2k1 protein function.
inact mut	unknown	loss of function	MAP2K1 inact mut indicates that this variant results in a loss of function of the Map2k1 protein. However, the specific amino acid change has not been identified.
K35N	missense	no effect - predicted	MAP2K1 K35N does not lie within any known functional domains of the Map2k1 protein (UniProt.org). K35N induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
K4N	missense	unknown	MAP2K1 K4N does not lie within any known functional domains of the Map2k1 protein (UniProt.org). K4N has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
K57C	missense	gain of function - predicted	MAP2K1 K57C lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). K57C has not been biochemically characterized, however, results in restored pathway activation in the presence of an upstream pathway inhibitor and therefore, is predicted to result in a gain of Map2k1 protein function (PMID: 24463458).
K57E	missense	gain of function	MAP2K1 K57E lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). K57E confers a gain of function on the Map2k1 protein as demonstrated by increased activation of downstream Erk1/2 and has been associated with Braf inhibitor resistance in cell culture (PMID: 24463458, PMID: 25370473).	Y
K57M	missense	gain of function	MAP2K1 K57M lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). K57M results in increased Erk phosphorylation, enhanced cell cycle progression, increased colony formation, and induction of autophagy in cultured cells (PMID: 31972311).
K57N	missense	gain of function	MAP2K1 K57N lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). K57N confers a gain of function on the Map2k1 protein as demonstrated by increased autophosphorylation (PMID: 29753091), increased Erk phosphorylation (PMID: 18632602, PMID: 29753091), increased cell proliferation and cell viability as compared to wild-type Map2k1, in two different cell lines (PMID: 29533785, PMID: 18632602), and also demonstrates resistance to some Mek and Braf inhibitors (PMID: 29753091).	Y
K57T	missense	gain of function	MAP2K1 K57T lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). K57T results in increased Erk1/2 phosphorylation in culture (PMID: 30341394, PMID: 32641410), and has been demonstrated to occur as a secondary drug resistance mutation (PMID: 26644315, PMID: 28819429, PMID: 30341394).	Y
K57_G61del	deletion	gain of function - predicted	MAP2K1 K57_G61del results in the deletion of five amino acids of the Map2k1 protein from amino acids 57 to 61 (UniProt.org). K57_G61del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
K59del	deletion	unknown	MAP2K1 K59del results in the deletion of an amino acid in the protein kinase domain of the Map2k1 protein at amino acid 59 (UniProt.org). K59del results in increased Mek and Erk phosphorylation in culture (PMID: 22389471), but demonstrates autophosphorylation levels similar to wild-type Map2k1 in another study (PMID: 29753091), and therefore, its effect on Map2k1 protein function is unknown.
K97M	missense	loss of function	MAP2K1 K97M lies within the protein kinase domain of the Map2k1 protein (UniProt.org). K97M is referred to as a kinase dead variant and does not result in phosphorylation of Erk1/2 and therefore, confers a loss of function to the Map2k1 protein (PMID: 15342384).
K97_L98del	deletion	no effect - predicted	MAP2K1 K97_L98del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 97 to 98 (UniProt.org). K97_L98del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
L101_E102del	deletion	gain of function - predicted	MAP2K1 L101_E102del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 101 to 102 (UniProt.org). L101_E102del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
L115A	missense	gain of function - predicted	MAP2K1 L115A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L115A is predicted to confer a gain of function to the Map2k1 protein, as demonstrated by increased kinase activity in an in-vitro assay (PMID: 12370306) and is also associated with decreased binding and partial response to Mek inhibitors (PMID: 12370306).
L115P	missense	gain of function	MAP2K1 L115P lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L115P confers a gain of function on the kinase activity of the Map2k1 protein, as demonstrated by increased autophosphorylation (PMID: 29753091) and increased basal kinase activity (PMID: 12370306), and is also associated with decreased binding and resistance to Mek inhibitors (PMID: 12370306, PMID: 19915144, PMID: 26399658).	Y
L115R	missense	unknown	MAP2K1 L115R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L115R has been described as a drug resistance mutation (PMID: 19915144), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).	Y
L177M	missense	gain of function	MAP2K1 L177M lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L177M confers a gain of function to the Map2k1 protein as indicated by a moderate increase in basal Erk signaling, sensitivity to Raf pathway activation (PMID: 29483135), and increased Erk phosphorylation in cultured cells (PMID: 32641410).
L177V	missense	gain of function - predicted	MAP2K1 L177V lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L177V results in weak phosphorylation of Erk (PMID: 32641410, PMID: 29483135) and phosphorylation of Mek (PMID: 29483135), and therefore, is predicted to result in a gain of map2k1 protein function.
L235H	missense	no effect - predicted	MAP2K1 L235H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L235H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
L313F	missense	no effect - predicted	MAP2K1 L313F lies within the protein kinase domain of the Map2k1 protein (UniProt.org). L313F induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
L37P	missense	gain of function	MAP2K1 L37P lies within the nuclear export region of the Map2k1 protein (PMID: 26566875). L37P confers a gain of function to the Map2k1 protein as demonstrated by increased Mek and Erk phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
L42F	missense	no effect	MAP2K1 L42F lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). L42F has been demonstrated to have autophosphorylation and kinase activities similar to wild-type Map2k1 in in vitro assays (PMID: 29753091).
L98_I103del	deletion	gain of function	MAP2K1 L98_I103del results in the deletion of six amino acids in the Map2k1 protein from amino acids 98 to 103 (UniProt.org). L98_I103del confers a gain of function to the Map2k1 protein as demonstrated by activity independent of Raf and increased phosphorylation of Mek and Erk relative to wild-type Map2k1 in vitro (PMID: 29483135).
L98_K104delinsQ	indel	gain of function	MAP2K1 L98_K104delinsQ results in a deletion of seven amino acids in the Map2k1 protein combined with the insertion of one new amino acid in the same location (UniProt.org). L98_K104delinsQ results in increased activation of Map2k1 and elevated phosphorylation of Mapk1 in-vitro (PMID: 29768711), and has also been demonstrated to occur as a putative drug resistance mutation (PMID: 29768711).	Y
M146I	missense	no effect - predicted	MAP2K1 M146I lies within the protein kinase domain of the Map2k1 protein (UniProt.org). M146I induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
M146T	missense	no effect - predicted	MAP2K1 M146T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). M146T induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
mutant	unknown	unknown	MAP2K1 mutant indicates an unspecified mutation in the MAP2K1 gene.
N109_Q110del	deletion	gain of function - predicted	MAP2K1 N109_Q110del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 109 to 110 (UniProt.org). N109_Q110del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
N109_R113del	deletion	gain of function	MAP2K1 N109_R113del results in the deletion of five amino acids in the protein kinase domain of the Map2k1 protein from amino acids 109 to 113 (UniProt.org). N109_R113del confers a gain of function to the Map2k1 protein as indicated by increased Erk phosphorylation (PMID: 32641410, PMID: 30393068), and Mek phosphorylation in cultured cells (PMID: 30393068).
N122D	missense	gain of function - predicted	MAP2K1 N122D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). N122D results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
N382H	missense	unknown	MAP2K1 N382H does not lie within any known functional domains of the Map2k1 protein (UniProt.org). N382H does not lead to Erk phosphorylation in culture (PMID: 22197931), however, has not been fully biochemically characterized and therefore, its effect on Map2k1 protein function is unknown.
P105_A106del	deletion	gain of function	MAP2K1 P105_A106del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 105 to 106 (UniProt.org). P105_A106del results in increased phosphorylation of Mek and Erk relative to wild-type Map2k1 in cell culture (PMID: 30377225).
P105_I107del	deletion	unknown	MAP2K1 P105_I107del results in the deletion of three amino acids in the protein kinase domain of the Map2k1 protein from amino acids 105 to 107 (UniProt.org). P105_I107del has been identified in the scientific literature (PMID: 30867592), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Jan 2021).
P105_I107delinsL	indel	gain of function - predicted	MAP2K1 P105_I107delinsL results in the deletion of three amino acids in the protein kinase domain of the Map2k1 protein from amino acids 105 to 107, combined with the insertion of a leucine (L) at the same site (Uniprot.org). P105_I107delinsL results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
P124L	missense	gain of function	MAP2K1 P124L lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P124L confers a gain of function on the Map2k1 protein as demonstrated by increased Erk 1/2 phosphorylation (PMID: 19915144, PMID: 29483135) and Mek phosphorylation in cultured cells (PMID: 29483135) and also confers resistance to some Mek and Braf inhibitors in melanoma cells (PMID: 19915144).	Y
P124Q	missense	unknown	MAP2K1 P124Q lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P124Q results in increased Erk1/2 phosphorylation in culture, and is associated with resistance to a Raf inhibitor (PMID: 25370473), but demonstrates autophosphorylation and kinase activity similar to wild-type Map2k1 in another study (PMID: 29753091), and therefore, its effect on Map2k1 protein function is unknown.	Y
P124R	missense	gain of function - predicted	MAP2K1 P124R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P124R results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
P124S	missense	unknown	MAP2K1 P124S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). The functional effect of P124S is conflicting, as it has been reported to confer a gain of function on the Map2k1 protein as demonstrated by increased Erk1/2 phosphorylation, but has similar induction of cell proliferation and viability levels as wild-type Map2k1 (PMID: 29533785), and confers resistance to Mek and Braf inhibitors in melanoma cells (PMID: 19915144, PMID: 22197931).	Y
P162S	missense	unknown	MAP2K1 P162S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P162S has been identified in the scientific literature (PMID: 24265154), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
P193S	missense	no effect - predicted	MAP2K1 P193S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P193S induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
P264R	missense	no effect - predicted	MAP2K1 P264R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P264R induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
P264S	missense	no effect - predicted	MAP2K1 P264S lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P264S induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
P306H	missense	gain of function	MAP2K1 P306H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P306H confers a gain of function to the Map2k1 protein as indicated by increased phosphorylation of Erk1/2 and modest transformation activity in culture (PMID: 22327936).
P321H	missense	no effect - predicted	MAP2K1 P321H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P321H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
P323A	missense	no effect - predicted	MAP2K1 P323A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). P323A induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
P387S	missense	gain of function	MAP2K1 P387S does not lie within any known functional domains of the Map2k1 protein (UniProt.org). P387S confers a gain of function to the Map2k1 protein as demonstrated by constitutive phosphorylation of Mek and Erk (PMID: 22389471).
Q110_I111del	deletion	gain of function - predicted	MAP2K1 Q110_I111del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 110 to 111 (UniProt.org). Q110_I111del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
Q164E	missense	no effect - predicted	MAP2K1 Q164E lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Q164E induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
Q354H	missense	unknown	MAP2K1 Q354H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Q354H has been identified in sequencing studies (PMID: 30111351), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
Q56P	missense	gain of function	MAP2K1 Q56P does not lie within any known functional domains of the Map2k1 protein (UniProt.org). Q56P confers a gain of function to the Map2k1 protein as indicated by increased kinase activity and the ability to transform cultured cells (PMID: 22327936, PMID: 7651428) and also demonstrates resistance to some Mek and Braf inhibitors (PMID: 29753091).	Y
Q56_V60del	deletion	gain of function	MAP2K1 Q56_V60del results in the deletion of five amino acids in the protein kinase domain of the Map2k1 protein from amino acids 56 to 60 (UniProt.org). Q56_V60del confers a gain of function to the Map2k1 protein as indicated by transformation capabilities and increased phosphorylation of Erk and S6k in culture (PMID: 26324360).
Q58H	missense	no effect - predicted	MAP2K1 Q58H does not lie within any known functional domains of the Map2k1 protein (UniProt.org). Q58H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
Q58_E62del	deletion	gain of function	MAP2K1 Q58_E62del results in the deletion of five amino acids in the Map2k1 protein from amino acis 58 to 62 (UniProt.org). Q58_E62del confers a gain of function to the Map2k1 protein as demonstrated by increased Mek and Erk phosphorylation relative to wild-type Map2k1 (PMID: 26566875, PMID: 25202140, PMID: 28935960).
R108Q	missense	no effect - predicted	MAP2K1 R108Q lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R108Q induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R108_N109del	deletion	gain of function - predicted	MAP2K1 R108_N109del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 108 to 109 (UniProt.org). R108_N109del results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.
R113_E114del	deletion	no effect - predicted	MAP2K1 R113_E114del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 113 to 114 (UniProt.org). R113_E114del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R201C	missense	no effect - predicted	MAP2K1 R201C lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R201C induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R201H	missense	no effect - predicted	MAP2K1 R201H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R201H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R227K	missense	no effect - predicted	MAP2K1 R227K lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R227K induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R260M	missense	unknown	MAP2K1 R260M lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R260M has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
R349K	missense	no effect - predicted	MAP2K1 R349K lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R349K induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R47Q	missense	gain of function	MAP2K1 R47Q lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). R47Q results in increased phosphorylation of Erk and is transforming in cell culture (PMID: 22327936).
R49C	missense	unknown	MAP2K1 R49C lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). R49C has been identified in the scientific literature (PMID: 24982505), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Aug 2020).
R49H	missense	no effect - predicted	MAP2K1 R49H lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). R49H induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R49L	missense	gain of function	MAP2K1 R49L lies within the negative regulatory region of the Map2k1 protein (PMID: 24241536). R49L confers a gain of function to the Map2k1 protein as demonstrated by transforming ability in culture and in vivo, and phosphorylation of Erk1/2 (PMID: 22327936).
R96K	missense	no effect - predicted	MAP2K1 R96K lies within the protein kinase domain of the Map2k1 protein (UniProt.org). R96K induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
R96_K97del	deletion	no effect - predicted	MAP2K1 R96_K97del results in the deletion of two amino acids in the protein kinase domain of the Map2k1 protein from amino acids 96 to 97 (UniProt.org). R96_K97del induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
S123P	missense	unknown	MAP2K1 S123P lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S123P has been identified in the scientific literature (PMID: 26566875), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
S123T	missense	gain of function	MAP2K1 S123T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S123T confers a gain of function to the Map2k1 protein as demonstrated by increased Mek and Erk phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
S218D	missense	gain of function	MAP2K1 S218D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S218D confers a gain of function to the Map2k1 protein as indicated by increased Map2k1 activity in the absence of growth factor, cell growth in culture, and tumor formation in mouse models (PMID: 7936666).
S222A	missense	no effect - predicted	MAP2K1 S222A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S222A has not been biochemically characterized, but results in similar cell proliferation and viability levels as wild-type Map2k1 (PMID: 29533785), and therefore, is predicted to have no effect on Map2k1 protein function.
S222D	missense	unknown	MAP2K1 S222D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S222D results in constitutive activation of Map2k1 when combined with MAP2K1 S218D or MAP2K1 S226D in culture (PMID: 7936666, PMID: 12506122), but has not been individually characterized and therefore, its effect on Map2k1 protein function is unknown.
S327T	missense	no effect - predicted	MAP2K1 S327T lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S327T induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
S331R	missense	unknown	MAP2K1 S331R lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S331R has been identified in the scientific literature (PMID: 25351745, PMID: 26582713), but has not been biochemically characterized and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
S86A	missense	no effect - predicted	MAP2K1 S86A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). S86A induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
T28I	missense	gain of function - predicted	MAP2K1 T28I lies within the Erk binding domain of the Map2k1 protein (PMID: 26566875). T28I is predicted to confer a gain of function to the Map2k1 protein as demonstrated by increased Mek phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
T55P	missense	unknown	MAP2K1 T55P does not lie within any known functional domains of the Map2k1 protein (UniProt.org). T55P results in autophosphorylation levels similar to wild-type Map2k1 in an in vitro assay (PMID: 29753091), but leads to increased Erk phosphorylation in cultured cells in another study (PMID: 32641410), and therefore, its effect on Map2k1 protein function is unknown.
V211A	missense	unknown	MAP2K1 V211A lies within the protein kinase domain of the Map2k1 protein (UniProt.org). V211A has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
V211D	missense	gain of function	MAP2K1 V211D lies within the protein kinase domain of the Map2k1 protein (UniProt.org). V211D confers a gain of function to Map2k1, as demonstrated by increased phosphorylation of Mek and Erk in cultured cells and in vitro kinase assays, and also demonstrates Braf and Mek inhibitor resistance (PMID: 29753091, PMID: 19915144, PMID: 31227518).	Y
V224M	missense	unknown	MAP2K1 V224M lies within the protein kinase domain of the Map2k1 protein (UniProt.org). V224M has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021)
V258I	missense	no effect - predicted	MAP2K1 V258I lies within the protein kinase domain of the Map2k1 protein (UniProt.org). V258I induces Erk phosphorylation similar to wild-type Map2k1 in cultured cells (PMID: 32641410), and therefore, is predicted to have no effect on Map2k1 protein function.
V60E	missense	gain of function	MAP2K1 V60E does not lie within any known functional domains of the Map2k1 protein (UniProt.org). V60E results in increased Erk signaling in cultured cells and tumor formation in orthotopic mouse models (PMID: 28263969), and has been described as a drug resistance mutation (PMID: 24265153, PMID: 28263969).	Y
V60M	missense	gain of function	MAP2K1 V60M does not lie within any known functional domains of the Map2k1 protein (UniProt.org). V60M confers a gain of function to the Map2k1 protein as demonstrated by increased Mek and Erk phosphorylation relative to wild-type Map2k1 (PMID: 26566875).
V93F	missense	unknown	MAP2K1 V93F lies within the protein kinase domain of the Map2k1 protein (UniProt.org). V93F has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Feb 2021).
W247*	nonsense	unknown	MAP2K1 W247* results in a premature truncation of the Map2k1 protein at amino acid 247 of 393 (UniProt.org). W247* has not been characterized in the scientific literature and therefore, its effect on Map2k1 protein function is unknown (PubMed, Mar 2021).
wild-type	none	no effect	Wild-type MAP2K1 indicates that no mutation has been detected within the MAP2K1 gene.
Y130C	missense	unknown	MAP2K1 Y130C lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Y130C demonstrates a phosphorylation profile similar to wild-type Map2k1 (PMID: 29753091), but in another study results in increased Erk phosphorylation in cell culture (PMID: 16439621, PMID: 18060073, PMID: 17981815, PMID: 31972311), and elevated cell cycle progression and colony formation compared to wild-type Map2k1 (PMID: 31972311), and therefore, its effect on Map2k1 protein function is unknown.
Y130H	missense	unknown	MAP2K1 Y130H lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Y130H results in autophosphorylation levels similar to wild-type Map2k1 in an in vitro assay (PMID: 29753091), but leads to increased Erk phosphorylation in cultured cells in another study (PMID: 32641410), and therefore, its effect on Map2k1 protein function is unknown.
Y130N	missense	no effect - predicted	MAP2K1 Y130N lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Y130N has been demonstrated to result in autophosphorylation levels similar to wild-type Map2k1 in an in-vitro assay (PMID: 29753091), and therefore, is predicted to have no effect on Map2k1 protein function.
Y134C	missense	gain of function - predicted	MAP2K1 Y134C lies within the protein kinase domain of the Map2k1 protein (UniProt.org). Y134C results in increased Erk phosphorylation in cultured cells (PMID: 32641410), and therefore, is predicted to result in a gain of Map2k1 protein function.

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