GPS-SUMO: Prediction of SUMOylation Sites & SUMO-interaction Motifs


※Citation

For publication of results please cite the following articles:

GPS-SUMO: a tool for the prediction of sumoylation sites and SUMO-interaction motifs.
Qi Zhao, Yubin Xie, Yueyuan Zheng, Shuai Jiang, Wenzhong Liu, Weiping Mu, Yong Zhao, Yu Xue and Jian Ren.
Nucleic Acids Research. 2014; 42(W1):W325-W330.

[Abstract] [Full Text]


Systematic study of protein sumoylation: Development of a site-specific predictor of SUMOsp 2.0.
Jian Ren, Xinjiao Gao, Changjiang Jin, Mei Zhu, Xiwei Wang, Andrew Shaw, Longping Wen, Xuebiao Yao and Yu Xue. Proteomics. 2009; 9:3409-3412

[Abstract] [Full Text]



※ GPS-SUMO/SUMOsp cited by >100 publications :

1.         Haywood AFM, et al. European Heart Journal.2013;34(13):1002-1011.[PMID: 23161701]

2.         Raman N, et al. Molecular Cell.2016;64(3):607-615.[PMID: 27814492]

3.         Chymkowitch P, et al. Genome Research.2015;25(6):897-906.

4.         Wu CS, et al. Genes & Development.2014;28(13):1472-1484.[PMID: 24990965]

5.         Kim JG, et al. Cell Host & Microbe.2013;13(2):143-154.[PMID: 23414755]

6.         Chen C, et al. Nature Communications.2015;6.[PMID: 26582366]

7.         Khan M, et al. Nature Communications.2014;5.[PMID: 25134617]

8.         Ng CH, et al. Nature Communications.2015;6.[PMID: 25766875]

9.         van Cuijk L, et al. Nature Communications.2015;6.[PMID: 26151477]

10.         Xia PY, et al. Nature Communications.2015;6.[PMID: 26348439]

11.       Shenoy SK, et al. Trends in Pharmacological Sciences.2011;32(9):521-533.[PMID: 21680031]

12.       Aguilar-Martinez E, et al. Proceedings of the National Academy of Sciences of the United States of America.2015;112(35):E4854-E4863.[PMID: 26283374]

13.       Ceballos-Chavez M, et al. Proceedings of the National Academy of Sciences of the United States of America.2012;109(21):8085-8090.[PMID: 22570500]

14.       Chymkowitch P, et al. Proceedings of the National Academy of Sciences of the United States of America.2017;114(5):1039-1044.[PMID: 28096404]

15.       Miller MJ, et al. Proceedings of the National Academy of Sciences of the United States of America.2010;107(38):16512-16517.[PMID: 20813957]

16.       Sadanandom A, et al. Proceedings of the National Academy of Sciences of the United States of America.2015;112(35):11108-11113.

17.       Sapir A, et al. Proceedings of the National Academy of Sciences of the United States of America.2014;111(37):E3880-E3889.[PMID: 25187565]

18.       Sohn SY, et al. Proceedings of the National Academy of Sciences of the United States of America.2016;113(24):6725-6730.

19.       DiGiacomo V, et al. Biological Reviews.2016;91(2):288-310.[PMID: 25630983]

20.       Patel KP, et al. Blood.2015;126(6):790-797.[PMID: 26124496]

21.       Sarkar K, et al. Blood.2015;126(14):1670-1682.

22.       Liu YY, et al. Plant Cell.2016;28(9):2225-2237.[PMID: 27492969]

23.       Shim HS, et al. Cancer Research.2015;75(6):1056-1067.[PMID: 25614517]

24.       Hannan A, et al. Nucleic Acids Research.2015;43(21):10213-10226.[PMID: 26319015]

25.       Zhao Q, et al. Nucleic Acids Research.2014;42(W1):W325-W330.[PMID: 24880689]

26.       Blicher T, et al. Current Opinion in Structural Biology.2010;20(3):335-341.[PMID: 20403684]

27.       Plant LD, et al. Elife.2016;5.

28.       Dai XQ, et al. Diabetes.2011;60(3):838-847.[PMID: 21266332]

29.       Lovisa S, et al. Journal of Molecular Cell Biology.2016;8(1):17-30.

30.       Ward JD, et al. Plos Genetics.2013;9(12).[PMID: 24348269]

31.       Williams MJ, et al. Plos Genetics.2016;12(6).[PMID: 27280443]

32.       Holscher C, et al. Plos Pathogens.2015;11(12).[PMID: 26625259]

33.       Garg M, et al. Embo Reports.2014;15(8):871-877.

34.       Cahill MA, et al. Biochimica Et Biophysica Acta-Reviews on Cancer.2016;1866(2):339-349.[PMID: 27452206]

35.       Augustine RC, et al. Plant Physiology.2016;171(3):2191-2210.[PMID: 27208252]

36.       Bayona JC, et al. Molecular & Cellular Proteomics.2011;10(12).[PMID: 21832256]

37.       Miller MJ, et al. Molecular & Cellular Proteomics.2013;12(2):449-463.[PMID: 23197790]

38.       Ritho J, et al. Cell Reports.2015;12(5):734-742.[PMID: 26212320]

39.       Brault ME, et al. Human Molecular Genetics.2013;22(17):3498-3507.[PMID: 23660516]

40.       Yang LS, et al. Oncotarget.2016;7(50):83488-83501.[PMID: 27829226]

41.       Petrovska B, et al. New Phytologist.2012;193(3):590-604.[PMID: 22150830]

42.       Luan ZD, et al. Cellular and Molecular Life Sciences.2013;70(10):1793-1806.[PMID: 23247248]

43.       Wetzel F, et al. Cellular and Molecular Life Sciences.2017;74(2):373-392.[PMID: 27604867]

44.       Williams MJ, et al. Cellular and Molecular Life Sciences.2012;69(22):3819-3834.[PMID: 22618246]

45.       Petrovska B, et al. Journal of Experimental Botany.2013;64(14):4575-4587.[PMID: 24006426]

46.       Strzalka W, et al. Journal of Experimental Botany.2012;63(8):2971-2983.[PMID: 22330895]

47.       Negrao S, et al. Plant Biotechnology Journal.2013;11(1):87-100.[PMID: 23116435]

48.       Hsieh FS, et al. Biochimica Et Biophysica Acta-Gene Regulatory Mechanisms.2014;1839(7):579-591.

49.       McIntyre JC, et al. Journal of Cell Science.2015;128(10):1934-1945.[PMID: 25908845]

50.       Vranych CV, et al. Biochimica Et Biophysica Acta-Molecular Cell Research.2014;1843(9):1805-1817.[PMID: 24751693]

51.       Bueno MTD, et al. Epigenetics.2013;8(11):1162-1175.[PMID: 23970103]

52.       Chen X, et al. Scientific Reports.2016;6.[PMID: 27174170]

53.       Deng WK, et al. Scientific Reports.2016;6.[PMID: 28004786]

54.       Estruch SB, et al. Scientific Reports.2016;6.[PMID: 26867680]

55.       Xie YB, et al. Scientific Reports.2016;6.[PMID: 27306108]

56.       Xu HD, et al. Scientific Reports.2015;5.[PMID: 26154679]

57.       Xu Y, et al. Scientific Reports.2015;5.[PMID: 26084794]

58.       Andrade D, et al. Molecular and Cellular Biology.2016;36(10):1438-1450.[PMID: 26951200]

59.       Choi SG, et al. Molecular and Cellular Biology.2017;37(2).[PMID: 27799292]

60.       Meng FX, et al. Cell Cycle.2016;15(13):1724-1732.[PMID: 27163259]

61.       Ryu H, et al. Cell Cycle.2015;14(17):2777-2784.

62.       Sridharan V, et al. Cell Cycle.2016;15(16):2135-2144.[PMID: 27230136]

63.       Peng PH, et al. Plant and Cell Physiology.2014;55(9):1623-1635.[PMID: 24974386]

64.       Kim HM, et al. Genetics.2015;200(2):495-+.[PMID: 25819793]

65.       Smits VAJ, et al. Bioessays.2016;38(9):863-868.[PMID: 27374980]

66.       Beyer AR, et al. Cellular Microbiology.2015;17(4):504-519.[PMID: 25308709]

67.       Lee HJ, et al. Cell Communication and Signaling.2010;8.[PMID: 20509869]

68.       Chen AJ, et al. Journal of Virology.2013;87(1):636-647.[PMID: 23097446]

69.       Gagnon D, et al. Journal of Virology.2015;89(12):6227-6239.[PMID: 25833051]

70.       Liu Y, et al. Journal of Virology.2016;90(23):10472-10485.[PMID: 27630238]

71.       Santos A, et al. Journal of Virology.2013;87(10):5602-5620.

72.       Su CI, et al. Journal of Virology.2016;90(9):4308-4319.[PMID: 26889037]

73.       Sun DY, et al. Journal of Virology.2011;85(19):10261-10268.[PMID: 21795356]

74.       Jiang JJ, et al. Endocrinology.2010;151(8):3697-3705.[PMID: 20555024]

75.       Peluso JJ, et al. Endocrinology.2012;153(8):3929-3939.[PMID: 22719051]

76.       Beauclair G, et al. Bioinformatics.2015;31(21):3483-3491.[PMID: 26142185]

77.       Jia JH, et al. Bioinformatics.2016;32(20):3133-3141.[PMID: 27354696]

78.       Nagata K, et al. Bioinformatics.2014;30(12):1681-1689.[PMID: 24574112]

79.       Giancaspero TA, et al. Journal of Biological Chemistry.2013;288(40):29069-29080.[PMID: 23946482]

80.       Lutz D, et al. Journal of Biological Chemistry.2012;287(21):17161-17175.[PMID: 22431726]

81.       Pelisch F, et al. Journal of Biological Chemistry.2012;287(36):30789-30799.[PMID: 22825850]

82.       Peterson AW, et al. Journal of Biological Chemistry.2011;286(16):13914-13924.[PMID: 21372131]

83.       Tokmakov AA, et al. Journal of Biological Chemistry.2012;287(32):27106-27116.[PMID: 22674579]

84.       Wakabayashi S, et al. Journal of Biological Chemistry.2016;291(48):25120-25132.[PMID: 27702999]

85.       Wu J, et al. Journal of Biological Chemistry.2014;289(29):20000-20011.[PMID: 24872413]

86.       Yamashita D, et al. Journal of Biological Chemistry.2016;291(22):11619-11634.

87.       Yao Q, et al. Journal of Biological Chemistry.2011;286(31):27342-27349.[PMID: 21685386]

88.       Zhang DY, et al. Journal of Biological Chemistry.2015;290(8):4784-4800.

89.       Chand V, et al. Open Biology.2016;6(9).[PMID: 27605378]

90.       Sharma P, et al. Open Biology.2014;4(2).[PMID: 24522884]

91.       Leach MD, et al. Molecular Biology of the Cell.2011;22(5):687-702.[PMID: 21209325]

92.       Rubio T, et al. Molecular Biology of the Cell.2013;24(11):1801-1811.

93.       Li J, et al. Database-the Journal of Biological Databases and Curation.2014.[PMID: 24705204]

94.       Nissan G, et al. Molecular Plant-Microbe Interactions.2012;25(2):231-240.[PMID: 21995766]

95.       Singh A, et al. Cell Calcium.2015;58(2):139-146.[PMID: 25933832]

96.       Dunphy PS, et al. Infection and Immunity.2014;82(10):4154-4168.[PMID: 25047847]

97.       Seliga J, et al. Journal of Steroid Biochemistry and Molecular Biology.2013;138:162-173.[PMID: 23727127]

98.       Barth AS, et al. Bmc Genomics.2010;11.

99.       McClure ML, et al. American Journal of Physiology-Lung Cellular and Molecular Physiology.2016;311(4):L719-L733.[PMID: 27474090]

100.       Yavuz AS, et al. Bmc Genomics.2014;15.[PMID: 25521314]

101.     Eifler K, et al. Febs Journal.2015;282(19):3669-3680.[PMID: 26185901]

102.     Gan J, et al. Proteomics.2015;15(12):2023-2037.[PMID: 25894481]

103.     Stastna M, et al. Proteomics.2015;15(5-6):1164-1180.[PMID: 25430483]

104.     Tomastikova E, et al. Bmc Plant Biology.2012;12.[PMID: 22676313]

105.     Tokmakov AA. Frontiers in Microbiology.2014;5.[PMID: 24999341]

106.     Bertrand C, et al. Journal of Proteomics.2017;150:268-280.[PMID: 27671789]

107.     Gianazza E, et al. Journal of Proteomics.2016;134:65-75.[PMID: 26436211]

108.     Schwammle V, et al. Journal of Proteomics.2015;129:3-15.[PMID: 26216596]

109.     Filosa G, et al. Neuromolecular Medicine.2013;15(4):661-676.[PMID: 23979992]

110.     Saribas AS, et al. Journal of Cellular Physiology.2016;231(10):2115-2127.

111.     Siitonen A, et al. European Journal of Neurology.2013;20(4):e59-e59.

112.     Ni HJ, et al. Biochimica Et Biophysica Acta-General Subjects.2012;1820(12):1893-1900.[PMID: 22906975]

113.     Teng SL, et al. Amino Acids.2012;43(1):447-455.[PMID: 21986959]

114.     Ntini E, et al. Developmental Biology.2011;360(2):403-414.[PMID: 22005665]

115.     Boudreau E, et al. Plos One.2012;7(9).[PMID: 23029315]

116.     Chaki M, et al. Plos One.2014;9(10).[PMID: 25333472]

117.     Chen YZ, et al. Plos One.2012;7(6).[PMID: 22720073]

118.     Costa MW, et al. Plos One.2011;6(9).[PMID: 21931855]

119.     Doss CGP, et al. Plos One.2012;7(4).[PMID: 22529920]

120.     Kelly JN, et al. Plos One.2014;9(7).[PMID: 24983760]

121.     Kim ET, et al. Plos One.2014;9(7).[PMID: 25050850]

122.     Monribot-Villanueva J, et al. Plos One.2013;8(4).[PMID: 23620817]

123.     Schou J, et al. Plos One.2014;9(6).[PMID: 24971888]

124.     Spektor TM, et al. Plos One.2011;6(7).[PMID: 21829513]

125.     Wu YY, et al. Plos One.2012;7(6).[PMID: 22745796]

126.     Xu Y, et al. Plos One.2016;11(4).[PMID: 27104833]

127.     Xue Y, et al. Plos One.2010;5(6).[PMID: 20585580]

128.     Xu Y, et al. Current Topics in Medicinal Chemistry.2016;16(6):591-603.[PMID: 26286211]

129.     Peluso JJ, et al. Biology of Reproduction.2013;88(1).[PMID: 23242527]

130.     Watanabe T, et al. Bmc Evolutionary Biology.2010;10.[PMID: 20152013]

131.     Cribb P, et al. International Journal for Parasitology.2011;41(11):1149-1156.[PMID: 21854779]

132.     Reed JM, et al. Planta.2010;232(1):51-59.[PMID: 20361336]

133.     Moriuchi T, et al. Experimental Cell Research.2016;342(1):83-94.[PMID: 26921507]

134.     Rajagopalan K, et al. Journal of Cellular Biochemistry.2011;112(11):3256-3267.[PMID: 21748782]

135.     McIntyre J, et al. DNA Repair.2015;29:166-179.[PMID: 25743599]

136.     Swartzlander DB, et al. DNA Repair.2016;48:51-62.[PMID: 27839712]

137.     Gowran A, et al. Febs Letters.2009;583(21):3412-3418.[PMID: 19819240]

138.     Lee HS, et al. Journal of Viral Hepatitis.2014;21(10):E108-E117.[PMID: 24602294]

139.     Gerits N, et al. Virology.2012;432(2):316-326.[PMID: 22726243]

140.     Reed AM, et al. Virology.2017;500:82-90.[PMID: 27771562]

141.     Martin-Gomez L, et al. Infection Genetics and Evolution.2014;23:138-149.[PMID: 24560728]

142.     Xiao YX, et al. Reproduction.2016;151(2):149-166.[PMID: 26701181]

143.     Leach MD, et al. Eukaryotic Cell.2012;11(2):98-108.[PMID: 22158711]

144.     Pokotylo I, et al. Biochimie.2014;96:144-157.[PMID: 23856562]

145.     Carmona-Mora P, et al. Current Genomics.2010;11(8):607-617.[PMID: 21629438]

146.     Saethang T, et al. Bmc Bioinformatics.2016;17.[PMID: 27534850]

147.     Oki AT, et al. Frontiers in Cellular and Infection Microbiology.2016;6.[PMID: 27713867]

148.     Ambady S, et al. International Journal of Developmental Biology.2010;54(11-12):1743-1754.[PMID: 21136380]

149.     Hansen M, et al. Neurochemical Research.2013;38(6):1236-1251.[PMID: 23417431]

150.     Handu M, et al. G3-Genes Genomes Genetics.2015;5(10):2137-2154.[PMID: 26290570]

151.     Horna-Terron E, et al. International Journal of Molecular Sciences.2014;15(12):23501-23518.[PMID: 25526565]

152.     Tang XD, et al. International Journal of Molecular Sciences.2014;15(12):22011-22027.[PMID: 25470021]

153.     Aftabi Y, et al. Journal of Theoretical Biology.2016;393:1-15.[PMID: 26776670]

154.     Garee JP, et al. Biochemical and Biophysical Research Communications.2011;408(4):516-522.[PMID: 21527249]

155.     Terova G, et al. Bmc Immunology.2011;12.[PMID: 22204309]

156.     Casati B, et al. Gene.2012;511(2):326-337.[PMID: 23041082]

157.     Martin-Gomez L, et al. Gene.2014;533(1):208-217.[PMID: 24095775]

158.     Xu Y, et al. Gene.2016;576(1):99-104.[PMID: 26432000]

159.     Grant MM. Bmb Reports.2010;43(11):720-725.

160.     Chase PB, et al. Journal of Muscle Research and Cell Motility.2013;34(3-4):275-284.

161.     Urrutia R, et al. Journal of Molecular Modeling.2014;20(8).[PMID: 25056123]

162.     Velez G, et al. Journal of Molecular Modeling.2016;22(1).

163.     Digiacomo V, et al. Cellular & Molecular Biology Letters.2015;20(4):571-585.

164.     Olsen MT, et al. Ecology and Evolution.2014;4(10):1787-1803.

165.     Herath V. Computational Biology and Chemistry.2016;65:128-139.[PMID: 27816829]

166.     Dangoumau A, et al. International Journal of Neuroscience.2013;123(6):366-374.[PMID: 23289752]

167.     Huang GH, et al. Mini-Reviews in Organic Chemistry.2015;12(6):468-480.

168.     Mojsin M, et al. Biochemical Genetics.2010;48(7-8):612-623.[PMID: 20495863]

169.     Maurer MH. Current Proteomics.2012;9(1):18-25.

170.     Bish R, et al. Biomolecules.2015;5(3):1441-1466.[PMID: 26184334]

171.     Horn H, et al. Peerj.2014;2.[PMID: 24711967]

172.     Knight JRP, et al. Rna.2016;22(4):623-635.[PMID: 26857222]

173.     Schwartz D. (2012) In Scott, I. (ed.

174.     Souquere S, et al. Nucleus.2015;6(4):326-338.[PMID: 26275159]

175.     Swartzlander DB, et al. (2012) In Doetsch, P. W.

176.     Terova G, et al. Springerplus.2013;2.[PMID: 23449729]

177.     Vigodner M. (2011) In Jeon, K. W.

178.     Weitzel JM. European Thyroid Journal.2016;5(3):152-163.[PMID: 27843805]