Details of the Target

General Information of Target

Target ID LDTP08974
Target Name Cyclic GMP-AMP synthase (CGAS)
Gene Name CGAS
Gene ID 115004
Synonyms
C6orf150; MB21D1; Cyclic GMP-AMP synthase; cGAMP synthase; cGAS; h-cGAS; EC 2.7.7.86; 2'3'-cGAMP synthase; Mab-21 domain-containing protein 1
3D Structure
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2D Sequence (FASTA)
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3D Structure (PDB)
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Sequence
MQPWHGKAMQRASEAGATAPKASARNARGAPMDPTESPAAPEAALPKAGKFGPARKSGSR
QKKSAPDTQERPPVRATGARAKKAPQRAQDTQPSDATSAPGAEGLEPPAAREPALSRAGS
CRQRGARCSTKPRPPPGPWDVPSPGLPVSAPILVRRDAAPGASKLRAVLEKLKLSRDDIS
TAAGMVKGVVDHLLLRLKCDSAFRGVGLLNTGSYYEHVKISAPNEFDVMFKLEVPRIQLE
EYSNTRAYYFVKFKRNPKENPLSQFLEGEILSASKMLSKFRKIIKEEINDIKDTDVIMKR
KRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLV
PKHAKEGNGFQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLMKYLLEQL
KERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKL
ENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFDEF
Target Bioclass
Enzyme
Family
Mab-21 family
Subcellular location
Nucleus
Function
Nucleotidyltransferase that catalyzes the formation of cyclic GMP-AMP (2',3'-cGAMP) from ATP and GTP and plays a key role in innate immunity . Catalysis involves both the formation of a 2',5' phosphodiester linkage at the GpA step and the formation of a 3',5' phosphodiester linkage at the ApG step, producing c[G(2',5')pA(3',5')p]. Acts as a key DNA sensor: directly binds double-stranded DNA (dsDNA), inducing the formation of liquid-like droplets in which CGAS is activated, leading to synthesis of 2',3'-cGAMP, a second messenger that binds to and activates STING1, thereby triggering type-I interferon production . Preferentially recognizes and binds curved long dsDNAs of a minimal length of 40 bp. Acts as a key foreign DNA sensor, the presence of double-stranded DNA (dsDNA) in the cytoplasm being a danger signal that triggers the immune responses. Has antiviral activity by sensing the presence of dsDNA from DNA viruses in the cytoplasm. Also acts as an innate immune sensor of infection by retroviruses, such as HIV-2, by detecting the presence of reverse-transcribed DNA in the cytosol. In contrast, HIV-1 is poorly sensed by CGAS, due to its capsid that cloaks viral DNA from CGAS detection. Detection of retroviral reverse-transcribed DNA in the cytosol may be indirect and be mediated via interaction with PQBP1, which directly binds reverse-transcribed retroviral DNA. Also detects the presence of DNA from bacteria, such as M.tuberculosis. 2',3'-cGAMP can be transferred from producing cells to neighboring cells through gap junctions, leading to promote STING1 activation and convey immune response to connecting cells. 2',3'-cGAMP can also be transferred between cells by virtue of packaging within viral particles contributing to IFN-induction in newly infected cells in a cGAS-independent but STING1-dependent manner. Also senses the presence of neutrophil extracellular traps (NETs) that are translocated to the cytosol following phagocytosis, leading to synthesis of 2',3'-cGAMP. In addition to foreign DNA, can also be activated by endogenous nuclear or mitochondrial DNA. When self-DNA leaks into the cytosol during cellular stress (such as mitochondrial stress, SARS-CoV-2 infection causing severe COVID-19 disease, DNA damage, mitotic arrest or senescence), or is present in form of cytosolic micronuclei, CGAS is activated leading to a state of sterile inflammation . Acts as a regulator of cellular senescence by binding to cytosolic chromatin fragments that are present in senescent cells, leading to trigger type-I interferon production via STING1 and promote cellular senescence. Also involved in the inflammatory response to genome instability and double-stranded DNA breaks: acts by localizing to micronuclei arising from genome instability. Micronuclei, which are frequently found in cancer cells, consist of chromatin surrounded by their own nuclear membrane: following breakdown of the micronuclear envelope, a process associated with chromothripsis, CGAS binds self-DNA exposed to the cytosol, leading to 2',3'-cGAMP synthesis and subsequent activation of STING1 and type-I interferon production. Activated in response to prolonged mitotic arrest, promoting mitotic cell death. In a healthy cell, CGAS is however kept inactive even in cellular events that directly expose it to self-DNA, such as mitosis, when cGAS associates with chromatin directly after nuclear envelope breakdown or remains in the form of postmitotic persistent nuclear cGAS pools bound to chromatin. Nuclear CGAS is inactivated by chromatin via direct interaction with nucleosomes, which block CGAS from DNA binding and thus prevent CGAS-induced autoimmunity. Also acts as a suppressor of DNA repair in response to DNA damage: inhibits homologous recombination repair by interacting with PARP1, the CGAS-PARP1 interaction leading to impede the formation of the PARP1-TIMELESS complex. In addition to DNA, also sense translation stress: in response to translation stress, translocates to the cytosol and associates with collided ribosomes, promoting its activation and triggering type-I interferon production. In contrast to other mammals, human CGAS displays species-specific mechanisms of DNA recognition and produces less 2',3'-cGAMP, allowing a more fine-tuned response to pathogens.
Uniprot ID
Q8N884
Ensemble ID
ENST00000370315.4
HGNC ID
HGNC:21367
ChEMBL ID
CHEMBL4105728

Target Site Mutations in Different Cell Lines

Cell line Mutation details Probe for labeling this protein in this cell
CFPAC1 Substitution: p.A167L DBIA    Probe Info 
DOTC24510 SNV: p.Y358Ter DBIA    Probe Info 
HCT116 SNV: p.L377V .
KMCH1 SNV: p.K327Ter DBIA    Probe Info 
LU65 SNV: p.A167E DBIA    Probe Info 
MEWO SNV: p.S37C .
MFE319 SNV: p.L277P; p.M413T .
SNGM SNV: p.L460M .
SUDHL4 Substitution: p.A167L .
TOV21G SNV: p.K131N .

Probe(s) Labeling This Target

ABPP Probe
Click To Hide/Show 6 Probe Related to This Target
Probe name Structure Binding Site(Ratio) Interaction ID Ref
STPyne
 Probe Info  		K355(10.00); K362(4.39); K384(4.50)  LDD0277  [1]
DBIA
 Probe Info  		C446(0.92)  LDD3313  [2]
BTD
 Probe Info  		C199(1.38)  LDD1700  [3]
IPM
 Probe Info  		C199(2.41)  LDD1701  [3]
CY4
 Probe Info  		K21(0.00); S23(0.00); T18(0.00); R28(0.00)  LDD0247  [4]
TFBX
 Probe Info  		N.A.  LDD0027  [5]

Competitor(s) Related to This Target

Competitor ID Name Cell line Binding Site(Ratio) Interaction ID Ref
 LDCM0524  2-Cyano-N-(2-morpholin-4-yl-ethyl)-acetamide MDA-MB-231 C199(0.85); C474(1.01)  LDD2117  [3]
 LDCM0558  2-Cyano-N-phenylacetamide MDA-MB-231 C199(1.17)  LDD2152  [3]
 LDCM0539  3-(4-Isopropylpiperazin-1-yl)-3-oxopropanenitrile MDA-MB-231 C199(0.47)  LDD2132  [3]
 LDCM0214  AC1 PaTu 8988t C446(0.47)  LDD1093  [6]
 LDCM0215  AC10 PaTu 8988t C446(1.44)  LDD1094  [6]
 LDCM0216  AC100 PaTu 8988t C446(0.85)  LDD1095  [6]
 LDCM0217  AC101 PaTu 8988t C446(1.00)  LDD1096  [6]
 LDCM0218  AC102 PaTu 8988t C446(1.22)  LDD1097  [6]
 LDCM0219  AC103 PaTu 8988t C446(0.83)  LDD1098  [6]
 LDCM0220  AC104 PaTu 8988t C446(1.07)  LDD1099  [6]
 LDCM0221  AC105 PaTu 8988t C446(1.16)  LDD1100  [6]
 LDCM0222  AC106 PaTu 8988t C446(1.01)  LDD1101  [6]
 LDCM0223  AC107 PaTu 8988t C446(0.89)  LDD1102  [6]
 LDCM0224  AC108 PaTu 8988t C446(0.97)  LDD1103  [6]
 LDCM0225  AC109 PaTu 8988t C446(0.97)  LDD1104  [6]
 LDCM0226  AC11 PaTu 8988t C446(0.96)  LDD1105  [6]
 LDCM0227  AC110 PaTu 8988t C446(0.86)  LDD1106  [6]
 LDCM0228  AC111 PaTu 8988t C446(1.12)  LDD1107  [6]
 LDCM0229  AC112 PaTu 8988t C446(1.00)  LDD1108  [6]
 LDCM0237  AC12 PaTu 8988t C446(1.03)  LDD1116  [6]
 LDCM0259  AC14 PaTu 8988t C446(0.98)  LDD1138  [6]
 LDCM0263  AC143 PaTu 8988t C446(1.09)  LDD1142  [6]
 LDCM0264  AC144 PaTu 8988t C446(0.97)  LDD1143  [6]
 LDCM0265  AC145 PaTu 8988t C446(0.86)  LDD1144  [6]
 LDCM0266  AC146 PaTu 8988t C446(0.91)  LDD1145  [6]
 LDCM0267  AC147 PaTu 8988t C446(1.05)  LDD1146  [6]
 LDCM0268  AC148 PaTu 8988t C446(0.89)  LDD1147  [6]
 LDCM0269  AC149 PaTu 8988t C446(0.83)  LDD1148  [6]
 LDCM0270  AC15 PaTu 8988t C446(1.07)  LDD1149  [6]
 LDCM0271  AC150 PaTu 8988t C446(0.91)  LDD1150  [6]
 LDCM0272  AC151 PaTu 8988t C446(0.71)  LDD1151  [6]
 LDCM0273  AC152 PaTu 8988t C446(0.90)  LDD1152  [6]
 LDCM0274  AC153 PaTu 8988t C446(0.80)  LDD1153  [6]
 LDCM0621  AC154 PaTu 8988t C446(0.76)  LDD2166  [6]
 LDCM0622  AC155 PaTu 8988t C446(0.75)  LDD2167  [6]
 LDCM0623  AC156 PaTu 8988t C446(0.73)  LDD2168  [6]
 LDCM0624  AC157 PaTu 8988t C446(0.87)  LDD2169  [6]
 LDCM0276  AC17 PaTu 8988t C446(1.01)  LDD1155  [6]
 LDCM0277  AC18 PaTu 8988t C446(0.90)  LDD1156  [6]
 LDCM0278  AC19 PaTu 8988t C446(0.92)  LDD1157  [6]
 LDCM0279  AC2 PaTu 8988t C446(0.64)  LDD1158  [6]
 LDCM0280  AC20 PaTu 8988t C446(0.89)  LDD1159  [6]
 LDCM0281  AC21 PaTu 8988t C446(0.87)  LDD1160  [6]
 LDCM0282  AC22 PaTu 8988t C446(0.89)  LDD1161  [6]
 LDCM0283  AC23 PaTu 8988t C446(0.86)  LDD1162  [6]
 LDCM0284  AC24 PaTu 8988t C446(0.95)  LDD1163  [6]
 LDCM0285  AC25 PaTu 8988t C446(1.06)  LDD1164  [6]
 LDCM0286  AC26 PaTu 8988t C446(1.03)  LDD1165  [6]
 LDCM0287  AC27 PaTu 8988t C446(1.05)  LDD1166  [6]
 LDCM0288  AC28 PaTu 8988t C446(1.01)  LDD1167  [6]
 LDCM0289  AC29 PaTu 8988t C446(1.13)  LDD1168  [6]
 LDCM0290  AC3 PaTu 8988t C446(0.57)  LDD1169  [6]
 LDCM0291  AC30 PaTu 8988t C446(1.02)  LDD1170  [6]
 LDCM0292  AC31 PaTu 8988t C446(1.07)  LDD1171  [6]
 LDCM0293  AC32 PaTu 8988t C446(0.96)  LDD1172  [6]
 LDCM0294  AC33 PaTu 8988t C446(1.11)  LDD1173  [6]
 LDCM0295  AC34 PaTu 8988t C446(0.97)  LDD1174  [6]
 LDCM0296  AC35 PaTu 8988t C446(0.88)  LDD1175  [6]
 LDCM0297  AC36 PaTu 8988t C446(0.61)  LDD1176  [6]
 LDCM0298  AC37 PaTu 8988t C446(0.88)  LDD1177  [6]
 LDCM0299  AC38 PaTu 8988t C446(0.77)  LDD1178  [6]
 LDCM0300  AC39 PaTu 8988t C446(0.61)  LDD1179  [6]
 LDCM0301  AC4 PaTu 8988t C446(0.66)  LDD1180  [6]
 LDCM0302  AC40 PaTu 8988t C446(0.65)  LDD1181  [6]
 LDCM0303  AC41 PaTu 8988t C446(0.68)  LDD1182  [6]
 LDCM0304  AC42 PaTu 8988t C446(0.68)  LDD1183  [6]
 LDCM0305  AC43 PaTu 8988t C446(0.71)  LDD1184  [6]
 LDCM0306  AC44 PaTu 8988t C446(0.57)  LDD1185  [6]
 LDCM0307  AC45 PaTu 8988t C446(0.59)  LDD1186  [6]
 LDCM0308  AC46 PaTu 8988t C446(0.97)  LDD1187  [6]
 LDCM0309  AC47 PaTu 8988t C446(1.01)  LDD1188  [6]
 LDCM0310  AC48 PaTu 8988t C446(1.01)  LDD1189  [6]
 LDCM0311  AC49 PaTu 8988t C446(0.87)  LDD1190  [6]
 LDCM0312  AC5 PaTu 8988t C446(0.58)  LDD1191  [6]
 LDCM0313  AC50 PaTu 8988t C446(0.85)  LDD1192  [6]
 LDCM0314  AC51 PaTu 8988t C446(0.56)  LDD1193  [6]
 LDCM0315  AC52 PaTu 8988t C446(0.91)  LDD1194  [6]
 LDCM0316  AC53 PaTu 8988t C446(0.87)  LDD1195  [6]
 LDCM0317  AC54 PaTu 8988t C446(0.82)  LDD1196  [6]
 LDCM0318  AC55 PaTu 8988t C446(1.00)  LDD1197  [6]
 LDCM0319  AC56 PaTu 8988t C446(0.97)  LDD1198  [6]
 LDCM0320  AC57 PaTu 8988t C446(0.68)  LDD1199  [6]
 LDCM0321  AC58 PaTu 8988t C446(0.74)  LDD1200  [6]
 LDCM0322  AC59 PaTu 8988t C446(0.94)  LDD1201  [6]
 LDCM0323  AC6 PaTu 8988t C446(1.11)  LDD1202  [6]
 LDCM0324  AC60 PaTu 8988t C446(0.84)  LDD1203  [6]
 LDCM0325  AC61 PaTu 8988t C446(0.81)  LDD1204  [6]
 LDCM0326  AC62 PaTu 8988t C446(0.94)  LDD1205  [6]
 LDCM0327  AC63 PaTu 8988t C446(0.68)  LDD1206  [6]
 LDCM0328  AC64 PaTu 8988t C446(0.69)  LDD1207  [6]
 LDCM0329  AC65 PaTu 8988t C446(1.08)  LDD1208  [6]
 LDCM0330  AC66 PaTu 8988t C446(0.80)  LDD1209  [6]
 LDCM0331  AC67 PaTu 8988t C446(0.70)  LDD1210  [6]
 LDCM0334  AC7 PaTu 8988t C446(0.98)  LDD1213  [6]
 LDCM0345  AC8 PaTu 8988t C446(0.87)  LDD1224  [6]
 LDCM0349  AC83 PaTu 8988t C446(0.96)  LDD1228  [6]
 LDCM0350  AC84 PaTu 8988t C446(0.82)  LDD1229  [6]
 LDCM0351  AC85 PaTu 8988t C446(1.05)  LDD1230  [6]
 LDCM0352  AC86 PaTu 8988t C446(0.87)  LDD1231  [6]
 LDCM0353  AC87 PaTu 8988t C446(1.18)  LDD1232  [6]
 LDCM0354  AC88 PaTu 8988t C446(0.78)  LDD1233  [6]
 LDCM0355  AC89 PaTu 8988t C446(1.01)  LDD1234  [6]
 LDCM0357  AC90 PaTu 8988t C446(1.00)  LDD1236  [6]
 LDCM0358  AC91 PaTu 8988t C446(0.83)  LDD1237  [6]
 LDCM0359  AC92 PaTu 8988t C446(1.02)  LDD1238  [6]
 LDCM0360  AC93 PaTu 8988t C446(0.83)  LDD1239  [6]
 LDCM0361  AC94 PaTu 8988t C446(0.90)  LDD1240  [6]
 LDCM0362  AC95 PaTu 8988t C446(0.91)  LDD1241  [6]
 LDCM0363  AC96 PaTu 8988t C446(1.10)  LDD1242  [6]
 LDCM0364  AC97 PaTu 8988t C446(0.75)  LDD1243  [6]
 LDCM0365  AC98 PaTu 8988t C446(1.04)  LDD1244  [6]
 LDCM0366  AC99 PaTu 8988t C446(1.13)  LDD1245  [6]
 LDCM0248  AKOS034007472 PaTu 8988t C446(1.27)  LDD1127  [6]
 LDCM0356  AKOS034007680 PaTu 8988t C446(1.11)  LDD1235  [6]
 LDCM0275  AKOS034007705 PaTu 8988t C446(1.16)  LDD1154  [6]
 LDCM0367  CL1 PaTu 8988t C446(0.70)  LDD1246  [6]
 LDCM0368  CL10 PaTu 8988t C446(0.63)  LDD1247  [6]
 LDCM0369  CL100 PaTu 8988t C446(0.60)  LDD1248  [6]
 LDCM0370  CL101 PaTu 8988t C446(0.91)  LDD1249  [6]
 LDCM0371  CL102 PaTu 8988t C446(0.90)  LDD1250  [6]
 LDCM0372  CL103 PaTu 8988t C446(1.22)  LDD1251  [6]
 LDCM0373  CL104 PaTu 8988t C446(1.10)  LDD1252  [6]
 LDCM0374  CL105 PaTu 8988t C446(0.94)  LDD1253  [6]
 LDCM0375  CL106 PaTu 8988t C446(0.91)  LDD1254  [6]
 LDCM0376  CL107 PaTu 8988t C446(0.89)  LDD1255  [6]
 LDCM0377  CL108 PaTu 8988t C446(0.84)  LDD1256  [6]
 LDCM0378  CL109 PaTu 8988t C446(0.95)  LDD1257  [6]
 LDCM0379  CL11 PaTu 8988t C446(0.79)  LDD1258  [6]
 LDCM0380  CL110 PaTu 8988t C446(0.89)  LDD1259  [6]
 LDCM0381  CL111 PaTu 8988t C446(0.81)  LDD1260  [6]
 LDCM0382  CL112 PaTu 8988t C446(1.00)  LDD1261  [6]
 LDCM0383  CL113 PaTu 8988t C446(1.03)  LDD1262  [6]
 LDCM0384  CL114 PaTu 8988t C446(0.91)  LDD1263  [6]
 LDCM0385  CL115 PaTu 8988t C446(1.09)  LDD1264  [6]
 LDCM0386  CL116 PaTu 8988t C446(0.98)  LDD1265  [6]
 LDCM0387  CL117 PaTu 8988t C446(0.58)  LDD1266  [6]
 LDCM0388  CL118 PaTu 8988t C446(0.79)  LDD1267  [6]
 LDCM0389  CL119 PaTu 8988t C446(0.74)  LDD1268  [6]
 LDCM0390  CL12 PaTu 8988t C446(0.84)  LDD1269  [6]
 LDCM0391  CL120 PaTu 8988t C446(0.81)  LDD1270  [6]
 LDCM0392  CL121 PaTu 8988t C446(0.94)  LDD1271  [6]
 LDCM0393  CL122 PaTu 8988t C446(1.02)  LDD1272  [6]
 LDCM0394  CL123 PaTu 8988t C446(0.87)  LDD1273  [6]
 LDCM0395  CL124 PaTu 8988t C446(0.89)  LDD1274  [6]
 LDCM0396  CL125 PaTu 8988t C446(0.89)  LDD1275  [6]
 LDCM0397  CL126 PaTu 8988t C446(0.64)  LDD1276  [6]
 LDCM0398  CL127 PaTu 8988t C446(0.84)  LDD1277  [6]
 LDCM0399  CL128 PaTu 8988t C446(0.98)  LDD1278  [6]
 LDCM0400  CL13 PaTu 8988t C446(0.74)  LDD1279  [6]
 LDCM0401  CL14 PaTu 8988t C446(0.60)  LDD1280  [6]
 LDCM0402  CL15 PaTu 8988t C446(0.71)  LDD1281  [6]
 LDCM0403  CL16 PaTu 8988t C446(0.77)  LDD1282  [6]
 LDCM0404  CL17 PaTu 8988t C446(0.89)  LDD1283  [6]
 LDCM0405  CL18 PaTu 8988t C446(1.05)  LDD1284  [6]
 LDCM0406  CL19 PaTu 8988t C446(0.79)  LDD1285  [6]
 LDCM0407  CL2 PaTu 8988t C446(0.87)  LDD1286  [6]
 LDCM0408  CL20 PaTu 8988t C446(0.73)  LDD1287  [6]
 LDCM0409  CL21 PaTu 8988t C446(0.49)  LDD1288  [6]
 LDCM0410  CL22 PaTu 8988t C446(0.74)  LDD1289  [6]
 LDCM0411  CL23 PaTu 8988t C446(0.76)  LDD1290  [6]
 LDCM0412  CL24 PaTu 8988t C446(1.05)  LDD1291  [6]
 LDCM0413  CL25 PaTu 8988t C446(1.03)  LDD1292  [6]
 LDCM0414  CL26 PaTu 8988t C446(0.72)  LDD1293  [6]
 LDCM0415  CL27 PaTu 8988t C446(0.79)  LDD1294  [6]
 LDCM0416  CL28 PaTu 8988t C446(0.57)  LDD1295  [6]
 LDCM0417  CL29 PaTu 8988t C446(0.60)  LDD1296  [6]
 LDCM0418  CL3 PaTu 8988t C446(0.79)  LDD1297  [6]
 LDCM0419  CL30 PaTu 8988t C446(0.74)  LDD1298  [6]
 LDCM0420  CL31 PaTu 8988t C446(0.96)  LDD1299  [6]
 LDCM0421  CL32 PaTu 8988t C446(0.86)  LDD1300  [6]
 LDCM0422  CL33 PaTu 8988t C446(0.66)  LDD1301  [6]
 LDCM0423  CL34 PaTu 8988t C446(0.81)  LDD1302  [6]
 LDCM0424  CL35 PaTu 8988t C446(0.87)  LDD1303  [6]
 LDCM0425  CL36 PaTu 8988t C446(0.45)  LDD1304  [6]
 LDCM0426  CL37 PaTu 8988t C446(0.76)  LDD1305  [6]
 LDCM0428  CL39 PaTu 8988t C446(0.80)  LDD1307  [6]
 LDCM0429  CL4 PaTu 8988t C446(0.79)  LDD1308  [6]
 LDCM0430  CL40 PaTu 8988t C446(0.84)  LDD1309  [6]
 LDCM0431  CL41 PaTu 8988t C446(0.77)  LDD1310  [6]
 LDCM0432  CL42 PaTu 8988t C446(0.85)  LDD1311  [6]
 LDCM0433  CL43 PaTu 8988t C446(0.76)  LDD1312  [6]
 LDCM0434  CL44 PaTu 8988t C446(0.86)  LDD1313  [6]
 LDCM0435  CL45 PaTu 8988t C446(0.73)  LDD1314  [6]
 LDCM0436  CL46 PaTu 8988t C446(1.01)  LDD1315  [6]
 LDCM0437  CL47 PaTu 8988t C446(0.97)  LDD1316  [6]
 LDCM0438  CL48 PaTu 8988t C446(1.09)  LDD1317  [6]
 LDCM0439  CL49 PaTu 8988t C446(1.20)  LDD1318  [6]
 LDCM0440  CL5 PaTu 8988t C446(0.72)  LDD1319  [6]
 LDCM0441  CL50 PaTu 8988t C446(0.81)  LDD1320  [6]
 LDCM0442  CL51 PaTu 8988t C446(0.86)  LDD1321  [6]
 LDCM0443  CL52 PaTu 8988t C446(1.24)  LDD1322  [6]
 LDCM0444  CL53 PaTu 8988t C446(0.90)  LDD1323  [6]
 LDCM0445  CL54 PaTu 8988t C446(0.85)  LDD1324  [6]
 LDCM0446  CL55 PaTu 8988t C446(0.94)  LDD1325  [6]
 LDCM0447  CL56 PaTu 8988t C446(0.53)  LDD1326  [6]
 LDCM0448  CL57 PaTu 8988t C446(0.77)  LDD1327  [6]
 LDCM0449  CL58 PaTu 8988t C446(0.98)  LDD1328  [6]
 LDCM0450  CL59 PaTu 8988t C446(0.88)  LDD1329  [6]
 LDCM0451  CL6 PaTu 8988t C446(0.85)  LDD1330  [6]
 LDCM0452  CL60 PaTu 8988t C446(0.87)  LDD1331  [6]
 LDCM0453  CL61 PaTu 8988t C446(0.89)  LDD1332  [6]
 LDCM0454  CL62 PaTu 8988t C446(0.80)  LDD1333  [6]
 LDCM0455  CL63 PaTu 8988t C446(0.93)  LDD1334  [6]
 LDCM0456  CL64 PaTu 8988t C446(0.88)  LDD1335  [6]
 LDCM0457  CL65 PaTu 8988t C446(0.81)  LDD1336  [6]
 LDCM0458  CL66 PaTu 8988t C446(0.86)  LDD1337  [6]
 LDCM0459  CL67 PaTu 8988t C446(0.87)  LDD1338  [6]
 LDCM0460  CL68 PaTu 8988t C446(0.80)  LDD1339  [6]
 LDCM0461  CL69 PaTu 8988t C446(0.70)  LDD1340  [6]
 LDCM0462  CL7 PaTu 8988t C446(0.78)  LDD1341  [6]
 LDCM0463  CL70 PaTu 8988t C446(0.98)  LDD1342  [6]
 LDCM0464  CL71 PaTu 8988t C446(0.80)  LDD1343  [6]
 LDCM0465  CL72 PaTu 8988t C446(0.97)  LDD1344  [6]
 LDCM0466  CL73 PaTu 8988t C446(0.78)  LDD1345  [6]
 LDCM0467  CL74 PaTu 8988t C446(0.92)  LDD1346  [6]
 LDCM0469  CL76 PaTu 8988t C446(0.78)  LDD1348  [6]
 LDCM0470  CL77 PaTu 8988t C446(0.79)  LDD1349  [6]
 LDCM0471  CL78 PaTu 8988t C446(0.84)  LDD1350  [6]
 LDCM0472  CL79 PaTu 8988t C446(0.92)  LDD1351  [6]
 LDCM0473  CL8 PaTu 8988t C446(0.60)  LDD1352  [6]
 LDCM0474  CL80 PaTu 8988t C446(0.85)  LDD1353  [6]
 LDCM0475  CL81 PaTu 8988t C446(0.77)  LDD1354  [6]
 LDCM0476  CL82 PaTu 8988t C446(0.85)  LDD1355  [6]
 LDCM0477  CL83 PaTu 8988t C446(0.67)  LDD1356  [6]
 LDCM0478  CL84 PaTu 8988t C446(0.83)  LDD1357  [6]
 LDCM0479  CL85 PaTu 8988t C446(0.88)  LDD1358  [6]
 LDCM0480  CL86 PaTu 8988t C446(0.72)  LDD1359  [6]
 LDCM0481  CL87 PaTu 8988t C446(0.73)  LDD1360  [6]
 LDCM0482  CL88 PaTu 8988t C446(0.79)  LDD1361  [6]
 LDCM0483  CL89 PaTu 8988t C446(0.76)  LDD1362  [6]
 LDCM0484  CL9 PaTu 8988t C446(0.79)  LDD1363  [6]
 LDCM0485  CL90 PaTu 8988t C446(0.69)  LDD1364  [6]
 LDCM0486  CL91 PaTu 8988t C446(0.66)  LDD1365  [6]
 LDCM0487  CL92 PaTu 8988t C446(0.50)  LDD1366  [6]
 LDCM0488  CL93 PaTu 8988t C446(0.55)  LDD1367  [6]
 LDCM0489  CL94 PaTu 8988t C446(0.57)  LDD1368  [6]
 LDCM0490  CL95 PaTu 8988t C446(0.44)  LDD1369  [6]
 LDCM0491  CL96 PaTu 8988t C446(0.54)  LDD1370  [6]
 LDCM0492  CL97 PaTu 8988t C446(0.58)  LDD1371  [6]
 LDCM0493  CL98 PaTu 8988t C446(0.55)  LDD1372  [6]
 LDCM0494  CL99 PaTu 8988t C446(0.59)  LDD1373  [6]
 LDCM0468  Fragment33 PaTu 8988t C446(0.82)  LDD1347  [6]
 LDCM0427  Fragment51 PaTu 8988t C446(0.74)  LDD1306  [6]
 LDCM0022  KB02 697 C199(1.16)  LDD2245  [2]
 LDCM0023  KB03 MDA-MB-231 C199(2.41)  LDD1701  [3]
 LDCM0024  KB05 Hs 936.T C446(0.92)  LDD3313  [2]
 LDCM0528  N-(4-bromophenyl)-2-cyano-N-phenylacetamide MDA-MB-231 C199(0.62)  LDD2121  [3]
 LDCM0500  Nucleophilic fragment 13a MDA-MB-231 C199(0.85)  LDD2093  [3]
 LDCM0503  Nucleophilic fragment 14b MDA-MB-231 C199(0.83)  LDD2096  [3]
 LDCM0505  Nucleophilic fragment 15b MDA-MB-231 C199(0.47)  LDD2098  [3]
 LDCM0506  Nucleophilic fragment 16a MDA-MB-231 C199(0.99)  LDD2099  [3]
 LDCM0514  Nucleophilic fragment 20a MDA-MB-231 C199(1.07)  LDD2107  [3]
 LDCM0525  Nucleophilic fragment 25b MDA-MB-231 C199(0.57)  LDD2118  [3]
 LDCM0526  Nucleophilic fragment 26a MDA-MB-231 C199(1.57)  LDD2119  [3]
 LDCM0530  Nucleophilic fragment 28a MDA-MB-231 C199(0.93)  LDD2123  [3]
 LDCM0531  Nucleophilic fragment 28b MDA-MB-231 C199(0.41)  LDD2124  [3]
 LDCM0532  Nucleophilic fragment 29a MDA-MB-231 C199(0.61)  LDD2125  [3]
 LDCM0533  Nucleophilic fragment 29b MDA-MB-231 C199(0.49)  LDD2126  [3]
 LDCM0534  Nucleophilic fragment 30a MDA-MB-231 C199(0.70)  LDD2127  [3]
 LDCM0536  Nucleophilic fragment 31 MDA-MB-231 C199(1.18)  LDD2129  [3]
 LDCM0543  Nucleophilic fragment 38 MDA-MB-231 C199(1.01)  LDD2136  [3]
 LDCM0544  Nucleophilic fragment 39 MDA-MB-231 C199(0.84)  LDD2137  [3]
 LDCM0211  Nucleophilic fragment 3b MDA-MB-231 C199(1.38)  LDD1700  [3]
 LDCM0546  Nucleophilic fragment 40 MDA-MB-231 C199(0.64)  LDD2140  [3]
 LDCM0547  Nucleophilic fragment 41 MDA-MB-231 C199(1.07)  LDD2141  [3]
 LDCM0550  Nucleophilic fragment 5a MDA-MB-231 C199(1.92)  LDD2144  [3]
 LDCM0555  Nucleophilic fragment 7b MDA-MB-231 C199(0.52)  LDD2149  [3]

References

1 A Paal-Knorr agent for chemoproteomic profiling of targets of isoketals in cells. Chem Sci. 2021 Oct 15;12(43):14557-14563. doi: 10.1039/d1sc02230j. eCollection 2021 Nov 10.
Mass spectrometry data entry: PXD028270
2 DrugMap: A quantitative pan-cancer analysis of cysteine ligandability. Cell. 2024 May 9;187(10):2536-2556.e30. doi: 10.1016/j.cell.2024.03.027. Epub 2024 Apr 22.
Mass spectrometry data entry: PXD047840
3 Nucleophilic covalent ligand discovery for the cysteine redoxome. Nat Chem Biol. 2023 Nov;19(11):1309-1319. doi: 10.1038/s41589-023-01330-5. Epub 2023 May 29.
Mass spectrometry data entry: PXD039908 , PXD029761
4 Cyclopropenone, Cyclopropeniminium Ion, and Cyclopropenethione as Novel Electrophilic Warheads for Potential Target Discovery of Triple-Negative Breast Cancer. J Med Chem. 2023 Feb 23;66(4):2851-2864. doi: 10.1021/acs.jmedchem.2c01889. Epub 2023 Feb 10.
5 Chemoproteomic Profiling by Cysteine Fluoroalkylation Reveals Myrocin G as an Inhibitor of the Nonhomologous End Joining DNA Repair Pathway. J Am Chem Soc. 2021 Dec 8;143(48):20332-20342. doi: 10.1021/jacs.1c09724. Epub 2021 Nov 24.
Mass spectrometry data entry: PXD029255
6 Reimagining high-throughput profiling of reactive cysteines for cell-based screening of large electrophile libraries. Nat Biotechnol. 2021 May;39(5):630-641. doi: 10.1038/s41587-020-00778-3. Epub 2021 Jan 4.