RAC1 GAPs stimulate RAC1 GTPase activity
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The following GTPase activating proteins (GAPs) were shown to bind RAC1 and stimulate its GTPase activity, resulting in GTP to GDP hydrolysis and conversion of the active RAC1:GTP complex into the inactive RAC1:GDP complex (the high throughput screen by Bagci et al. 2020 examined binding of GAPs to constitutively active RAC1 mutant without testing for activation of RAC1 GTPase activity and is cited as supporting evidence, as indicated):<br>ARHGAP4 (Vogt et al. 2007; Müller et al. 2020)<br>ARHGAP9 (Furukawa et al. 2001; Müller et al. 2020)<br>ARHGAP15 (Seoh et al. 2003; Zamboni et al. 2016; Müller et al. 2020)<br>ARHGAP20 (Müller et al. 2020)<br>ARHGAP22 (Mori et al. 2014; Müller et al. 2020)<br>ARHGAP23 (Martin Vilchez et al. 2017; Müller et al. 2020)<br>ARHGAP27 (Sakakibara et al. 2004; Müller et al. 2020)<br>ARHGAP30 (Naji et al. 2011; Müller et al. 2020)<br>ARHGAP31 (Tcherkezian et al. 2006; Müller et al. 2020; supported by Bagci et al. 2020)<br>ARHGAP39 (Lundström et al. 2004; Müller et al. 2020; supported by Bagci et al. 2020)<br>ARHGAP44 (Raynaud et al. 2014; Müller et al. 2020)<br>CHN1 (Ahmed et al. 1994; Caloca et al. 2008; Müller et al. 2020)<br>CHN2 (Canagarajah et al. 2004; Caloca et al. 2003; Müller et al. 2020)<br>FAM13A (Müller et al. 2020)<br>FAM13B (Müller et al. 2020)<br>HMHA1 (de Kreuk et al. 2013)<br>RALBP1 (Jullien Flores et al. 1995; Müller et al. 2020)<br>SH3BP1 (Müller et al. 2020)<br>SRGAP2 (Mason et al. 2011; Guo and Bao 2010; Müller et al. 2020; supported by Bagci et al. 2020)<br>SRGAP3 (Endris et al. 2002; Müller et al. 2020)<br>SYDE2 (Müller et al. 2020)<br>TAGAP (Bauer et al. 2005; Müller et al. 2020)<br><br>The following GAPs were shown to bind RAC1 and stimulate its GTPase activity in some but not all studies and are annotated as candidate RAC1 GAPs (the high throughput screen by Bagci et al. 2020 examined binding of GAPs to constitutively active RAC1 mutant without testing for activation of RAC1 GTPase activity and is cited as supporting evidence, as indicated):<br>ABR (Chuang et al. 1995, Um et al. 2014, Amin et al. 2016; Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARAP1 (Müller et al. 2020: RAC1-directed GAP activity; Miura et al. 2002: no RAC1-directed GAP activity)<br>ARAP2 (Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: binding to active RAC1; Yoon et al. 2006: no RAC1 directed GAP activity)<br>ARAP3 (Krugmann et al. 2002, Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP1 (Amin et al. 2016: RAC1 directed GAP activity; Li et al. 2009, Yang et al. 2006, Müller et al. 2020: no RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP5 (Burbelo et al. 1995: RAC1-directed GAP activity; Bagci et al. 2020: binding to active RAC1; Müller et al. 2020: no RAC1-directed GAP activity)<br>ARHGAP10 (Shibata et al. 2001: RAC1-directed GAP activity; Müller et al. 2020: no RAC1-directed GAP activity)<br>ARHGAP12 (Müller et al. 2020: RAC1-directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP17 (Richnau and Aspenstrom 2001, Amin et al. 2016: RAC1 directed GAP activity; Müller et al. 2020: no RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP21 (Bagci et al. 2020: binding to active RAC1; Sousa et al. 2005, Müller et al. 2020: no RAC1 directed GAP activity)<br>ARHGAP24 (Lavelin and Geiger 2005, Ohta et al. 2006: RAC1 directed GAP activity; Su et al. 2004, Müller et al. 2020: no RAC1 directed GAP activity)<br>ARHGAP25 (Csépányi Kömi et al. 2016, Csépányi Kömi et al. 2012: RAC1-directed GTPase activity; Müller et al. 2020: no RAC1-directed GAP activity)<br>ARHGAP26 (Amin et al. 2016: RAC1 directed GAP activity; Sheffield et al. 1999, Müller et al. 2020: no RAC1 directed GAP activity)<br>ARHGAP29 (Saras et al. 1997: RAC1 directed GAP activity; Müller et al. 2020: no RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP32 (Nakazawa et al. 2003: RAC1-directed GAP activity; Bagci et al. 2020: binding to active RAC1; Müller et al. 2020: no RAC1-directed GAP activity)<br>ARHGAP33 (Müller et al. 2020: RAC1-directed GAP activity; Liu et al. 2006: no RAC1-directed GAP activity)<br>ARHGAP35 (Lévay et al. 2009, Amin et al. 2016, Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>ARHGAP42 (Bagci et al. 2020: binding to active RAC1; Bai et al. 2013: no RAC1 directed GAP activity)<br>BCR (Um et al. 2014, Chuang et al. 1995, Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>DEPDC1B (Wu et al. 2015: RAC1-directed GAP activity; Bagci et al. 2020: binding to active RAC1; Müller et al. 2020: no RAC1-directed GAP activity)<br>DLC1 (Amin et al. 2016: RAC1 directed GAP activity; Homma and Emori 1995, Müller et al. 2020: no RAC1 directed GAP activity)<br>GMIP (Müller et al. 2020: RAC1-directed GAP activity; Aresta et al. 2002: no RAC1-directed GAP activity)<br>MYO9B (Müller et al. 2020: RAC1-directed GAP activity; Post et al. 1998, Kong et al. 2015: no RAC1-directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>OPHN1 (Niermann et al. 2016, Billuart et al. 1998, Elvers et al. 2012, Amin et al. 2016: RAC1 directed GAP activity; Müller et al. 2020: no RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>PIK3R1 (Bagci et al. 2020: binding to active RAC1; Müller et al. 2020: no RAC1-directed GAP activity)<br>PIK3R2 (Bagci et al. 2020: binding to active RAC1; Müller et al. 2020: no RAC1-directed GAP activity)<br>RACGAP1 (Touré et al. 1998, Amin et al. 2016, Müller et al. 2020: RAC1 directed GAP activity; Bagci et al. 2020: no binding to active RAC1)<br>SRGAP1 (Müller et al. 2020: RAC1-directed GAP activity; Wong et al. 2001: no RAC1-directed GAP activity)<br><br>The following GAPs do not act on RAC1 or were shown by Bagci et al. 2020 to not bind constitutively active RAC1 mutant, as indicated:<br>ARHGAP6 (Prakash et al. 2000; Müller et al. 2020)<br>ARHGAP8 (Lua and Low 2004; Müller et al. 2020)<br>ARHGAP11A (Lawson et al. 2016; Müller et al. 2020)<br>ARHGAP11B (Florio et al. 2015; Müller et al. 2020)<br>ARHGAP18 (Maeda et al. 2011; Müller et al. 2020)<br>ARHGAP19 (David et al. 2014; Müller et al. 2020)<br>ARHGAP28 (Yeung et al. 2014; Müller et al. 2020)<br>ARHGAP36 (Rack et al. 2014; Müller et al. 2020)<br>ARHGAP40 (Müller et al. 2020)<br>ARHGAP45 (Müller et al. 2020)<br>DEPDC1 (Müller et al. 2020)<br>INPP5B (Müller et al. 2020)<br>MYO9A (Müller et al. 2020; Bagci et al. 2020: no binding to active RAC1)<br>OCRL (Erdmann et al. 2007; Lichter Konecki et al. 2006; Müller et al. 2020; Bagci et al. 2020: no binding to active RAC1)<br>STARD8 (Kawai et al. 2007; Amin et al. 2016; Müller et al. 2020)<br>STARD13 (Ching et al. 2003; Amin et al. 2016; Müller et al. 2020)<br>SYDE1 (Müller et al. 2020; Bagci et al. 2020: no binding to active RAC1)
以下GTPase激活蛋白(GAPs)已被证实可结合RAC1并刺激其GTPase活性,导致GTP水解为GDP,并将活性RAC1:GTP复合物转化为非活性RAC1:GDP复合物(Bagci等人于2020年进行的高通量筛选考察了GAPs与组成型活性RAC1突变体的结合,未测试RAC1 GTPase活性的激活,并作为支持证据,如所示):<br>ARHGAP4(Vogt等人,2007;Müller等人,2020)<br>ARHGAP9(Furukawa等人,2001;Müller等人,2020)<br>ARHGAP15(Seoh等人,2003;Zamboni等人,2016;Müller等人,2020)<br>ARHGAP20(Müller等人,2020)<br>ARHGAP22(Mori等人,2014;Müller等人,2020)<br>ARHGAP23(Martin Vilchez等人,2017;Müller等人,2020)<br>ARHGAP27(Sakakibara等人,2004;Müller等人,2020)<br>ARHGAP30(Naji等人,2011;Müller等人,2020)<br>ARHGAP31(Tcherkezian等人,2006;Müller等人,2020;由Bagci等人于2020年支持)<br>ARHGAP39(Lundström等人,2004;Müller等人,2020;由Bagci等人于2020年支持)<br>ARHGAP44(Raynaud等人,2014;Müller等人,2020)<br>CHN1(Ahmed等人,1994;Caloca等人,2008;Müller等人,2020)<br>CHN2(Canagarajah等人,2004;Caloca等人,2003;Müller等人,2020)<br>FAM13A(Müller等人,2020)<br>FAM13B(Müller等人,2020)<br>HMHA1(de Kreuk等人,2013)<br>RALBP1(Jullien Flores等人,1995;Müller等人,2020)<br>SH3BP1(Müller等人,2020)<br>SRGAP2(Mason等人,2011;Guo和Bao,2010;Müller等人,2020;由Bagci等人于2020年支持)<br>SRGAP3(Endris等人,2002;Müller等人,2020)<br>SYDE2(Müller等人,2020)<br>TAGAP(Bauer等人,2005;Müller等人,2020)<br><br>以下GAPs在部分而非所有研究中被证实可结合RAC1并刺激其GTPase活性,并被标注为RAC1 GAPs候选者(Bagci等人于2020年进行的高通量筛选考察了GAPs与组成型活性RAC1突变体的结合,未测试RAC1 GTPase活性的激活,并作为支持证据,如所示):<br>ABR(Chuang等人,1995,Um等人,2014,Amin等人,2016;Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARAP1(Müller等人,2020:RAC1导向的GAP活性;Miura等人,2002:无RAC1导向的GAP活性)<br>ARAP2(Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:结合到活性RAC1;Yoon等人,2006:无RAC1导向的GAP活性)<br>ARAP3(Krugmann等人,2002,Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP1(Amin等人,2016:RAC1导向的GAP活性;Li等人,2009,Yang等人,2006,Müller等人,2020:无RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP5(Burbelo等人,1995:RAC1导向的GAP活性;Bagci等人,2020:结合到活性RAC1;Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP10(Shibata等人,2001:RAC1导向的GAP活性;Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP12(Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP17(Richnau和Aspenstrom,2001,Amin等人,2016:RAC1导向的GAP活性;Müller等人,2020:无RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP21(Bagci等人,2020:结合到活性RAC1;Sousa等人,2005,Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP24(Lavelin和Geiger,2005,Ohta等人,2006:RAC1导向的GAP活性;Su等人,2004,Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP25(Csépányi Kömi等人,2016,Csépányi Kömi等人,2012:RAC1导向的GTPase活性;Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP26(Amin等人,2016:RAC1导向的GAP活性;Sheffield等人,1999,Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP29(Saras等人,1997:RAC1导向的GAP活性;Müller等人,2020:无RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP32(Nakazawa等人,2003:RAC1导向的GAP活性;Bagci等人,2020:结合到活性RAC1;Müller等人,2020:无RAC1导向的GAP活性)<br>ARHGAP33(Müller等人,2020:RAC1导向的GAP活性;Liu等人,2006:无RAC1导向的GAP活性)<br>ARHGAP35(Lévay等人,2009,Amin等人,2016,Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>ARHGAP42(Bagci等人,2020:结合到活性RAC1;Bai等人,2013:无RAC1导向的GAP活性)<br>BCR(Um等人,2014,Chuang等人,1995,Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>DEPDC1B(Wu等人,2015:RAC1导向的GAP活性;Bagci等人,2020:结合到活性RAC1;Müller等人,2020:无RAC1导向的GAP活性)<br>DLC1(Amin等人,2016:RAC1导向的GAP活性;Homma和Emori,1995,Müller等人,2020:无RAC1导向的GAP活性)<br>GMIP(Müller等人,2020:RAC1导向的GAP活性;Aresta等人,2002:无RAC1导向的GAP活性)<br>MYO9B(Müller等人,2020:RAC1导向的GAP活性;Post等人,1998,Kong等人,2015:无RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>OPHN1(Niermann等人,2016,Billuart等人,1998,Elvers等人,2012,Amin等人,2016:RAC1导向的GAP活性;Müller等人,2020:无RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>PIK3R1(Bagci等人,2020:结合到活性RAC1;Müller等人,2020:无RAC1导向的GAP活性)<br>PIK3R2(Bagci等人,2020:结合到活性RAC1;Müller等人,2020:无RAC1导向的GAP活性)<br>RACGAP1(Touré等人,1998,Amin等人,2016,Müller等人,2020:RAC1导向的GAP活性;Bagci等人,2020:未结合到活性RAC1)<br>SRGAP1(Müller等人,2020:RAC1导向的GAP活性;Wong等人,2001:无RAC1导向的GAP活性)<br><br>以下GAPs对RAC1无作用,或由Bagci等人于2020年表明未结合到组成型活性RAC1突变体,如所示:<br>ARHGAP6(Prakash等人,2000;Müller等人,2020)<br>ARHGAP8(Lua和Low,2004;Müller等人,2020)<br>ARHGAP11A(Lawson等人,2016;Müller等人,2020)<br>ARHGAP11B(Florio等人,2015;Müller等人,2020)<br>ARHGAP18(Maeda等人,2011;Müller等人,2020)<br>ARHGAP19(David等人,2014;Müller等人,2020)<br>ARHGAP28(Yeung等人,2014;Müller等人,2020)<br>ARHGAP36(Rack等人,2014;Müller等人,2020)<br>ARHGAP40(Müller等人,2020)<br>ARHGAP45(Müller等人,2020)<br>DEPDC1(Müller等人,2020)<br>INPP5B(Müller等人,2020)<br>MYO9A(Müller等人,2020;Bagci等人,2020:未结合到活性RAC1)<br>OCRL(Erdmann等人,2007;Lichter Konecki等人,2006;Müller等人,2020;Bagci等人,2020:未结合到活性RAC1)<br>STARD8(Kawai等人,2007;Amin等人,2016;Müller等人,2020)<br>STARD13(Ching等人,2003;Amin等人,2016;Müller等人,2020)<br>SYDE1(Müller等人,2020;Bagci等人,2020:未结合到活性RAC1)
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