STRINGSTRING
B0WR40_CULQU B0WR40_CULQU B0XLY0_CULQU B0XLY0_CULQU B0XLP0_CULQU B0XLP0_CULQU B0XLI3_CULQU B0XLI3_CULQU B0XL95_CULQU B0XL95_CULQU B0XL50_CULQU B0XL50_CULQU B0XKJ3_CULQU B0XKJ3_CULQU B0XK13_CULQU B0XK13_CULQU B0XJZ7_CULQU B0XJZ7_CULQU B0XJY1_CULQU B0XJY1_CULQU B0XJF3_CULQU B0XJF3_CULQU B0XIZ7_CULQU B0XIZ7_CULQU B0XI91_CULQU B0XI91_CULQU B0XI89_CULQU B0XI89_CULQU B0XI86_CULQU B0XI86_CULQU B0XI84_CULQU B0XI84_CULQU B0XI70_CULQU B0XI70_CULQU B0XI06_CULQU B0XI06_CULQU B0XHB5_CULQU B0XHB5_CULQU B0XH60_CULQU B0XH60_CULQU B0XH32_CULQU B0XH32_CULQU B0XH16_CULQU B0XH16_CULQU B0XGQ9_CULQU B0XGQ9_CULQU B0XGQ6_CULQU B0XGQ6_CULQU B0XGQ5_CULQU B0XGQ5_CULQU B0XGA4_CULQU B0XGA4_CULQU B0XFY6_CULQU B0XFY6_CULQU B0XFS1_CULQU B0XFS1_CULQU B0XFL5_CULQU B0XFL5_CULQU B0XF83_CULQU B0XF83_CULQU B0XF55_CULQU B0XF55_CULQU B0XF19_CULQU B0XF19_CULQU B0XEX5_CULQU B0XEX5_CULQU B0XEI6_CULQU B0XEI6_CULQU B0XEF5_CULQU B0XEF5_CULQU B0XE55_CULQU B0XE55_CULQU B0XE37_CULQU B0XE37_CULQU B0XDT3_CULQU B0XDT3_CULQU B0XDM0_CULQU B0XDM0_CULQU B0XD53_CULQU B0XD53_CULQU B0XD28_CULQU B0XD28_CULQU B0XCP5_CULQU B0XCP5_CULQU B0XC54_CULQU B0XC54_CULQU B0XC05_CULQU B0XC05_CULQU B0XBT7_CULQU B0XBT7_CULQU B0XBL5_CULQU B0XBL5_CULQU B0XB64_CULQU B0XB64_CULQU B0XAB2_CULQU B0XAB2_CULQU B0XAA9_CULQU B0XAA9_CULQU B0XA24_CULQU B0XA24_CULQU B0X9C9_CULQU B0X9C9_CULQU B0X947_CULQU B0X947_CULQU B0X8S8_CULQU B0X8S8_CULQU B0X8Q9_CULQU B0X8Q9_CULQU B0X8H1_CULQU B0X8H1_CULQU B0X863_CULQU B0X863_CULQU B0X862_CULQU B0X862_CULQU B0X826_CULQU B0X826_CULQU B0X777_CULQU B0X777_CULQU B0X776_CULQU B0X776_CULQU B0X726_CULQU B0X726_CULQU B0X713_CULQU B0X713_CULQU B0X712_CULQU B0X712_CULQU B0X709_CULQU B0X709_CULQU B0X6R0_CULQU B0X6R0_CULQU B0X6Q9_CULQU B0X6Q9_CULQU B0X6Q8_CULQU B0X6Q8_CULQU B0X6Q7_CULQU B0X6Q7_CULQU B0X6Q6_CULQU B0X6Q6_CULQU B0X696_CULQU B0X696_CULQU B0X5V8_CULQU B0X5V8_CULQU B0X5U8_CULQU B0X5U8_CULQU B0X5S6_CULQU B0X5S6_CULQU B0X5P6_CULQU B0X5P6_CULQU B0X5E5_CULQU B0X5E5_CULQU B0X525_CULQU B0X525_CULQU B0X462_CULQU B0X462_CULQU B0X346_CULQU B0X346_CULQU B0X2E2_CULQU B0X2E2_CULQU B0X0Z2_CULQU B0X0Z2_CULQU B0X0Y7_CULQU B0X0Y7_CULQU B0X0Y6_CULQU B0X0Y6_CULQU B0X0Q9_CULQU B0X0Q9_CULQU B0X0I5_CULQU B0X0I5_CULQU B0X056_CULQU B0X056_CULQU B0WZB1_CULQU B0WZB1_CULQU B0WZ32_CULQU B0WZ32_CULQU B0WYV1_CULQU B0WYV1_CULQU B0WYU7_CULQU B0WYU7_CULQU B0WYS5_CULQU B0WYS5_CULQU B0WYP3_CULQU B0WYP3_CULQU B0WYL5_CULQU B0WYL5_CULQU B0WYJ2_CULQU B0WYJ2_CULQU B0WY04_CULQU B0WY04_CULQU B0WXV0_CULQU B0WXV0_CULQU B0WXR2_CULQU B0WXR2_CULQU B0WX78_CULQU B0WX78_CULQU B0WX77_CULQU B0WX77_CULQU B0WX36_CULQU B0WX36_CULQU B0WX05_CULQU B0WX05_CULQU B0WWG4_CULQU B0WWG4_CULQU B0WWB3_CULQU B0WWB3_CULQU B0WWB1_CULQU B0WWB1_CULQU B0WVZ6_CULQU B0WVZ6_CULQU B0WVD1_CULQU B0WVD1_CULQU B0WUX9_CULQU B0WUX9_CULQU B0WUQ4_CULQU B0WUQ4_CULQU B0WT58_CULQU B0WT58_CULQU B0WT07_CULQU B0WT07_CULQU B0WSU2_CULQU B0WSU2_CULQU B0WSK5_CULQU B0WSK5_CULQU B0WSK3_CULQU B0WSK3_CULQU B0WRX7_CULQU B0WRX7_CULQU B0WRP3_CULQU B0WRP3_CULQU B0WR52_CULQU B0WR52_CULQU B0WR51_CULQU B0WR51_CULQU B0WQV6_CULQU B0WQV6_CULQU B0WQV3_CULQU B0WQV3_CULQU B0WQQ0_CULQU B0WQQ0_CULQU B0WQK2_CULQU B0WQK2_CULQU B0WQ62_CULQU B0WQ62_CULQU B0WQ19_CULQU B0WQ19_CULQU B0WPT4_CULQU B0WPT4_CULQU B0WPL7_CULQU B0WPL7_CULQU B0WNW0_CULQU B0WNW0_CULQU B0WNS1_CULQU B0WNS1_CULQU B0WNP1_CULQU B0WNP1_CULQU B0WNJ0_CULQU B0WNJ0_CULQU B0WN48_CULQU B0WN48_CULQU B0WN45_CULQU B0WN45_CULQU B0WN39_CULQU B0WN39_CULQU B0WMU1_CULQU B0WMU1_CULQU B0WMI3_CULQU B0WMI3_CULQU B0WMB3_CULQU B0WMB3_CULQU B0WLL0_CULQU B0WLL0_CULQU B0WLI4_CULQU B0WLI4_CULQU B0WLC6_CULQU B0WLC6_CULQU B0WLC5_CULQU B0WLC5_CULQU B0WL47_CULQU B0WL47_CULQU B0WKV1_CULQU B0WKV1_CULQU B0WKU9_CULQU B0WKU9_CULQU B0WKU8_CULQU B0WKU8_CULQU B0WKT0_CULQU B0WKT0_CULQU B0WKR4_CULQU B0WKR4_CULQU B0WK00_CULQU B0WK00_CULQU B0WJY3_CULQU B0WJY3_CULQU B0WJR5_CULQU B0WJR5_CULQU B0WJR1_CULQU B0WJR1_CULQU B0WJH9_CULQU B0WJH9_CULQU B0WJ48_CULQU B0WJ48_CULQU B0WIL6_CULQU B0WIL6_CULQU B0WII2_CULQU B0WII2_CULQU B0WII1_CULQU B0WII1_CULQU B0WII0_CULQU B0WII0_CULQU B0WI27_CULQU B0WI27_CULQU B0WHR8_CULQU B0WHR8_CULQU B0WH98_CULQU B0WH98_CULQU B0WH56_CULQU B0WH56_CULQU B0WGS1_CULQU B0WGS1_CULQU B0WGR8_CULQU B0WGR8_CULQU B0WGL8_CULQU B0WGL8_CULQU B0WGF1_CULQU B0WGF1_CULQU B0WGB0_CULQU B0WGB0_CULQU B0WG64_CULQU B0WG64_CULQU B0WFB2_CULQU B0WFB2_CULQU B0WF44_CULQU B0WF44_CULQU B0WF32_CULQU B0WF32_CULQU B0WEZ2_CULQU B0WEZ2_CULQU B0WEG7_CULQU B0WEG7_CULQU B0WEE9_CULQU B0WEE9_CULQU B0WEC2_CULQU B0WEC2_CULQU B0WEC1_CULQU B0WEC1_CULQU B0WE75_CULQU B0WE75_CULQU B0WE68_CULQU B0WE68_CULQU B0WE21_CULQU B0WE21_CULQU B0WDZ5_CULQU B0WDZ5_CULQU B0WDZ3_CULQU B0WDZ3_CULQU B0WDT2_CULQU B0WDT2_CULQU B0WDM6_CULQU B0WDM6_CULQU B0WDM0_CULQU B0WDM0_CULQU B0WD00_CULQU B0WD00_CULQU B0WCT1_CULQU B0WCT1_CULQU B0WBD7_CULQU B0WBD7_CULQU B0WB96_CULQU B0WB96_CULQU B0WAM4_CULQU B0WAM4_CULQU B0WAM3_CULQU B0WAM3_CULQU B0WAM0_CULQU B0WAM0_CULQU B0WAF1_CULQU B0WAF1_CULQU B0WA62_CULQU B0WA62_CULQU B0WA49_CULQU B0WA49_CULQU B0WA21_CULQU B0WA21_CULQU B0W9W7_CULQU B0W9W7_CULQU B0W9L5_CULQU B0W9L5_CULQU B0W9E4_CULQU B0W9E4_CULQU B0W993_CULQU B0W993_CULQU B0W979_CULQU B0W979_CULQU B0W978_CULQU B0W978_CULQU B0W8I8_CULQU B0W8I8_CULQU B0W877_CULQU B0W877_CULQU B0W7Y1_CULQU B0W7Y1_CULQU B0W798_CULQU B0W798_CULQU B0W797_CULQU B0W797_CULQU B0W707_CULQU B0W707_CULQU B0W6L0_CULQU B0W6L0_CULQU B0W5Z1_CULQU B0W5Z1_CULQU B0W5V3_CULQU B0W5V3_CULQU B0W5U4_CULQU B0W5U4_CULQU B0W5U2_CULQU B0W5U2_CULQU B0W5H4_CULQU B0W5H4_CULQU B0W5A5_CULQU B0W5A5_CULQU B0W3V0_CULQU B0W3V0_CULQU B0W3U7_CULQU B0W3U7_CULQU B0W3R2_CULQU B0W3R2_CULQU B0W3G0_CULQU B0W3G0_CULQU B0W322_CULQU B0W322_CULQU B0W314_CULQU B0W314_CULQU B0W2J2_CULQU B0W2J2_CULQU B0W290_CULQU B0W290_CULQU B0W257_CULQU B0W257_CULQU B0W203_CULQU B0W203_CULQU B0W150_CULQU B0W150_CULQU B0W0J8_CULQU B0W0J8_CULQU B0W0E9_CULQU B0W0E9_CULQU B0VZD1_CULQU B0VZD1_CULQU B0VZ31_CULQU B0VZ31_CULQU
Nodes:
Network nodes represent proteins
splice isoforms or post-translational modifications are collapsed, i.e. each node represents all the proteins produced by a single, protein-coding gene locus.
Node Color
colored nodes:
query proteins and first shell of interactors
white nodes:
second shell of interactors
Node Content
empty nodes:
proteins of unknown 3D structure
filled nodes:
a 3D structure is known or predicted
Edges:
Edges represent protein-protein associations
associations are meant to be specific and meaningful, i.e. proteins jointly contribute to a shared function; this does not necessarily mean they are physically binding to each other.
Known Interactions
from curated databases
experimentally determined
Predicted Interactions
gene neighborhood
gene fusions
gene co-occurrence
Others
textmining
co-expression
protein homology
Your Input:
B0WR40_CULQUGp210. (1870 aa)
B0XLY0_CULQUUncharacterized protein. (108 aa)
B0XLP0_CULQUUncharacterized protein. (361 aa)
B0XLI3_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (92 aa)
B0XL95_CULQUSerine/threonine-protein kinase 6; Belongs to the protein kinase superfamily. (310 aa)
B0XL50_CULQUNucleoporin. (434 aa)
B0XKJ3_CULQUUncharacterized protein. (335 aa)
B0XK13_CULQUPosterior sex combs protein (Fragment). (183 aa)
B0XJZ7_CULQUNucleoporin. (415 aa)
B0XJY1_CULQUPugilistDominant. (180 aa)
B0XJF3_CULQUNucleoporin. (281 aa)
B0XIZ7_CULQUTranscription factor p65. (528 aa)
B0XI91_CULQUUncharacterized protein. (180 aa)
B0XI89_CULQUUncharacterized protein. (212 aa)
B0XI86_CULQUUncharacterized protein. (244 aa)
B0XI84_CULQUUncharacterized protein. (180 aa)
B0XI70_CULQURetinoic acid receptor beta. (79 aa)
B0XI06_CULQUNuclear pore protein. (250 aa)
B0XHB5_CULQUUncharacterized protein. (152 aa)
B0XH60_CULQUHTH CENPB-type domain-containing protein. (475 aa)
B0XH32_CULQUPredicted protein. (658 aa)
B0XH16_CULQURothmund-thomson syndrome DNA helicase recq4, putative. (1093 aa)
B0XGQ9_CULQUNucleoporin. (298 aa)
B0XGQ6_CULQUUncharacterized protein. (401 aa)
B0XGQ5_CULQUUncharacterized protein. (1569 aa)
B0XGA4_CULQUTranscription factor btd. (605 aa)
B0XFY6_CULQUNuclear pore complex protein nup93. (666 aa)
B0XFS1_CULQUUncharacterized protein. (1263 aa)
B0XFL5_CULQUSentrin/sumo-specific protease senp7. (157 aa)
B0XF83_CULQUUncharacterized protein. (778 aa)
B0XF55_CULQUUncharacterized protein. (683 aa)
B0XF19_CULQUNucleoporin. (275 aa)
B0XEX5_CULQUHTH CENPB-type domain-containing protein. (765 aa)
B0XEI6_CULQUBED-type domain-containing protein. (626 aa)
B0XEF5_CULQUNucleoporin. (368 aa)
B0XE55_CULQUNucleoporin. (419 aa)
B0XE37_CULQUNucleoporin. (411 aa)
B0XDT3_CULQUDDE-1 domain-containing protein. (327 aa)
B0XDM0_CULQUDDE-1 domain-containing protein. (715 aa)
B0XD53_CULQUDDE-1 domain-containing protein. (594 aa)
B0XD28_CULQUTOP4c domain-containing protein. (540 aa)
B0XCP5_CULQUATP-dependent RNA helicase p62; Belongs to the DEAD box helicase family. (663 aa)
B0XC54_CULQUInhibitor of growth protein. (435 aa)
B0XC05_CULQUHistone deacetylase. (718 aa)
B0XBT7_CULQUAladin. (478 aa)
B0XBL5_CULQUNucleoporin. (304 aa)
B0XB64_CULQUNuclear pore protein. (282 aa)
B0XAB2_CULQUUncharacterized protein. (139 aa)
B0XAA9_CULQUUncharacterized protein. (485 aa)
B0XA24_CULQUDimer_Tnp_hAT domain-containing protein. (652 aa)
B0X9C9_CULQUNucleoporin. (304 aa)
B0X947_CULQUNucleoporin. (388 aa)
B0X8S8_CULQUNuclear receptor nhr-48. (698 aa)
B0X8Q9_CULQUTranscription factor p65. (528 aa)
B0X8H1_CULQUNucleoporin Nup37. (318 aa)
B0X863_CULQUUncharacterized protein. (67 aa)
B0X862_CULQUNuclear receptor 3. (542 aa)
B0X826_CULQUUncharacterized protein. (170 aa)
B0X777_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (110 aa)
B0X776_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (104 aa)
B0X726_CULQUUncharacterized protein. (280 aa)
B0X713_CULQUUncharacterized protein. (1240 aa)
B0X712_CULQURing finger protein. (212 aa)
B0X709_CULQUPosterior sex combs protein. (1324 aa)
B0X6R0_CULQUHTH psq-type domain-containing protein. (529 aa)
B0X6Q9_CULQUHTH psq-type domain-containing protein. (526 aa)
B0X6Q8_CULQUUncharacterized protein. (531 aa)
B0X6Q7_CULQUHTH psq-type domain-containing protein. (539 aa)
B0X6Q6_CULQUNucleoporin. (273 aa)
B0X696_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (117 aa)
B0X5V8_CULQUNuclear hormone receptor ftz-f1. (183 aa)
B0X5U8_CULQUDEAD box ATP-dependent RNA helicase; Belongs to the DEAD box helicase family. (686 aa)
B0X5S6_CULQUNucleoporin. (290 aa)
B0X5P6_CULQUUncharacterized protein. (252 aa)
B0X5E5_CULQUNucleolar protein NOP5. (562 aa)
B0X525_CULQUSumo-1-activating enzyme E1a. (333 aa)
B0X462_CULQUUncharacterized protein. (282 aa)
B0X346_CULQUNucleoporin-17. (361 aa)
B0X2E2_CULQUNuclear pore protein. (257 aa)
B0X0Z2_CULQUScaffold attachment factor b. (678 aa)
B0X0Y7_CULQUUncharacterized protein. (607 aa)
B0X0Y6_CULQURING-type domain-containing protein. (190 aa)
B0X0Q9_CULQUPoly. (531 aa)
B0X0I5_CULQUNucleoporin. (320 aa)
B0X056_CULQUNucleoporin 50kDa. (476 aa)
B0WZB1_CULQUSentrin/sumo-specific protease. (579 aa)
B0WZ32_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (124 aa)
B0WYV1_CULQUBRCT domain-containing protein. (358 aa)
B0WYU7_CULQUHTH psq-type domain-containing protein. (501 aa)
B0WYS5_CULQUPoly [ADP-ribose] polymerase. (1000 aa)
B0WYP3_CULQUStructural maintenance of chromosomes 5 smc5. (1046 aa)
B0WYL5_CULQUATP-dependent RNA helicase p62. (935 aa)
B0WYJ2_CULQUPredicted protein. (592 aa)
B0WY04_CULQUNuclear factor NF-kappa-B p105 subunit. (997 aa)
B0WXV0_CULQUHistone deacetylase. (1031 aa)
B0WXR2_CULQUNucleoporin, p88, putative. (596 aa)
B0WX78_CULQUPoly. (139 aa)
B0WX77_CULQUPoly. (315 aa)
B0WX36_CULQUDorsal 1-B. (452 aa)
B0WX05_CULQUNucleoporin. (212 aa)
B0WWG4_CULQUUncharacterized protein. (331 aa)
B0WWB3_CULQUPoly. (190 aa)
B0WWB1_CULQUPoly. (110 aa)
B0WVZ6_CULQUSmall ubiquitin-related modifier. (95 aa)
B0WVD1_CULQUHTH CENPB-type domain-containing protein. (434 aa)
B0WUX9_CULQUPoly. (327 aa)
B0WUQ4_CULQUForkhead protein/ forkhead protein domain. (384 aa)
B0WT58_CULQUNucleoporin P54. (571 aa)
B0WT07_CULQUNucleoporin. (426 aa)
B0WSU2_CULQUNon-structural maintenance of chromosomes element 4; Component of the SMC5-SMC6 complex, that promotes sister chromatid alignment after DNA damage and facilitates double-stranded DNA breaks (DSBs) repair via homologous recombination between sister chromatids. (308 aa)
B0WSK5_CULQUGLP_748_1200_211 (Fragment). (51 aa)
B0WSK3_CULQUNucleoporin 50. (328 aa)
B0WRX7_CULQUNucleoporin. (236 aa)
B0WRP3_CULQUDNA topoisomerase 2; Control of topological states of DNA by transient breakage and subsequent rejoining of DNA strands. Topoisomerase II makes double- strand breaks. (1358 aa)
B0WR52_CULQUDEAD box ATP-dependent RNA helicase. (172 aa)
B0WR51_CULQUDEAD box ATP-dependent RNA helicase; Belongs to the DEAD box helicase family. (579 aa)
B0WQV6_CULQUNucleoporin NUP53; Functions as a component of the nuclear pore complex (NPC). Belongs to the Nup35 family. (336 aa)
B0WQV3_CULQUE3 ubiquitin-protein ligase RING1. (418 aa)
B0WQQ0_CULQUHTH CENPB-type domain-containing protein. (552 aa)
B0WQK2_CULQUNucleoporin Nup43. (381 aa)
B0WQ62_CULQUQuijote. (199 aa)
B0WQ19_CULQUNuclear pore complex protein nup214. (1742 aa)
B0WPT4_CULQUPhorbol-ester/DAG-type domain-containing protein. (236 aa)
B0WPL7_CULQUSumo ligase, putative. (588 aa)
B0WNW0_CULQUPolycomb protein. (386 aa)
B0WNS1_CULQUNucleoporin. (385 aa)
B0WNP1_CULQUUncharacterized protein. (1176 aa)
B0WNJ0_CULQUUncharacterized protein. (327 aa)
B0WN48_CULQUUncharacterized protein. (336 aa)
B0WN45_CULQUUncharacterized protein. (310 aa)
B0WN39_CULQUPredicted protein. (578 aa)
B0WMU1_CULQUUncharacterized protein. (310 aa)
B0WMI3_CULQUEcdysone-induced protein 75b. (1111 aa)
B0WMB3_CULQUNucleoporin. (305 aa)
B0WLL0_CULQUSUMO-activating enzyme subunit; Belongs to the ubiquitin-activating E1 family. (644 aa)
B0WLI4_CULQUNuclear hormone receptor ftz-f1. (384 aa)
B0WLC6_CULQUCDC24_OB3 domain-containing protein. (471 aa)
B0WLC5_CULQUUncharacterized protein. (288 aa)
B0WL47_CULQURanBD1 domain-containing protein. (464 aa)
B0WKV1_CULQUStructural maintenance of chromosomes protein 6. (1121 aa)
B0WKU9_CULQUSerine/threonine-protein kinase 6; Belongs to the protein kinase superfamily. (380 aa)
B0WKU8_CULQURan-binding protein. (2689 aa)
B0WKT0_CULQULethal(3)malignant brain tumor. (865 aa)
B0WKR4_CULQUUncharacterized protein. (566 aa)
B0WK00_CULQURothmund-thomson syndrome DNA helicase recq4, putative. (1527 aa)
B0WJY3_CULQUNucleoporin. (344 aa)
B0WJR5_CULQUHTH psq-type domain-containing protein. (635 aa)
B0WJR1_CULQUUncharacterized protein. (509 aa)
B0WJH9_CULQUATP-dependent DNA helicase hus2/rqh1. (1437 aa)
B0WJ48_CULQUNucleoporin, Nup153, putative. (1807 aa)
B0WIL6_CULQUUncharacterized protein. (369 aa)
B0WII2_CULQUUncharacterized protein. (146 aa)
B0WII1_CULQUUncharacterized protein. (588 aa)
B0WII0_CULQUUncharacterized protein. (472 aa)
B0WI27_CULQUNuclear pore complex protein Nup85; Functions as a component of the nuclear pore complex (NPC). (696 aa)
B0WHR8_CULQUSurvivin. (141 aa)
B0WH98_CULQUNucleoporin. (246 aa)
B0WH56_CULQUUncharacterized protein. (1842 aa)
B0WGS1_CULQUNuclear pore complex protein nup93. (150 aa)
B0WGR8_CULQUUncharacterized protein; Belongs to the D-isomer specific 2-hydroxyacid dehydrogenase family. (404 aa)
B0WGL8_CULQUGTPase activating protein RanGAP1. (153 aa)
B0WGF1_CULQUNuclear pore complex protein nup93. (327 aa)
B0WGB0_CULQUDDE-1 domain-containing protein. (378 aa)
B0WG64_CULQUHistone H4; Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. (103 aa)
B0WFB2_CULQUNup133. (1188 aa)
B0WF44_CULQUMetastasis-associated protein 3. (959 aa)
B0WF32_CULQUUncharacterized protein. (337 aa)
B0WEZ2_CULQUNuclear pore protein. (815 aa)
B0WEG7_CULQUNucleoporin. (161 aa)
B0WEE9_CULQUDefective proventriculus. (704 aa)
B0WEC2_CULQUSAM domain-containing protein. (613 aa)
B0WEC1_CULQUFCS-type domain-containing protein. (776 aa)
B0WE75_CULQUDimer_Tnp_hAT domain-containing protein. (734 aa)
B0WE68_CULQUNucleoporin, putative; Belongs to the WD repeat SEC13 family. (344 aa)
B0WE21_CULQUTranscription factor sp8,sp9. (497 aa)
B0WDZ5_CULQUUbiquitin-conjugating enzyme E2 i; Belongs to the ubiquitin-conjugating enzyme family. (158 aa)
B0WDZ3_CULQUBED-type domain-containing protein. (485 aa)
B0WDT2_CULQUDimer_Tnp_hAT domain-containing protein. (771 aa)
B0WDM6_CULQUNuclear pore protein. (277 aa)
B0WDM0_CULQUUncharacterized protein. (440 aa)
B0WD00_CULQUBED-type domain-containing protein. (258 aa)
B0WCT1_CULQUForkhead box protein. (443 aa)
B0WBD7_CULQUNuclear pore glycoprotein p62. (316 aa)
B0WB96_CULQUDDE-1 domain-containing protein. (939 aa)
B0WAM4_CULQUATP-dependent RNA helicase p62; Belongs to the DEAD box helicase family. (409 aa)
B0WAM3_CULQURNA helicase. (410 aa)
B0WAM0_CULQUUncharacterized protein. (1318 aa)
B0WAF1_CULQUUncharacterized protein. (456 aa)
B0WA62_CULQUDNA topoisomerase I; Releases the supercoiling and torsional tension of DNA introduced during the DNA replication and transcription by transiently cleaving and rejoining one strand of the DNA duplex. Introduces a single-strand break via transesterification at the specific target site 5'-[CT]CCTTp site in duplex DNA. The scissile phosphodiester is attacked by the catalytic tyrosine of the enzyme, resulting in the formation of a DNA-(3'-phosphotyrosyl)-enzyme intermediate and the expulsion of a 5'-OH DNA strand. The free DNA strand then undergoes passage around the unbroken strand thus r [...] (962 aa)
B0WA49_CULQUNuclear pore complex protein; Functions as a component of the nuclear pore complex (NPC). (879 aa)
B0WA21_CULQUNucleoplasmin domain-containing protein. (174 aa)
B0W9W7_CULQUUncharacterized protein. (404 aa)
B0W9L5_CULQUProacrosin, putative. (1010 aa)
B0W9E4_CULQUNuclear pore complex protein Nup205. (1972 aa)
B0W993_CULQUSp5 transcription factor. (832 aa)
B0W979_CULQUUncharacterized protein. (382 aa)
B0W978_CULQUMegator. (2301 aa)
B0W8I8_CULQUProtein transport protein SEC13; Belongs to the WD repeat SEC13 family. (326 aa)
B0W877_CULQUUncharacterized protein. (377 aa)
B0W7Y1_CULQUZAD domain-containing protein. (805 aa)
B0W798_CULQUUncharacterized protein. (225 aa)
B0W797_CULQUEcdysone receptor. (528 aa)
B0W707_CULQUC3H1-type domain-containing protein. (405 aa)
B0W6L0_CULQUNuclear pore complex protein nup98. (1877 aa)
B0W5Z1_CULQUReplication protein A subunit; As part of the heterotrimeric replication protein A complex (RPA/RP-A), binds and stabilizes single-stranded DNA intermediates, that form during DNA replication or upon DNA stress. It prevents their reannealing and in parallel, recruits and activates different proteins and complexes involved in DNA metabolism. Thereby, it plays an essential role both in DNA replication and the cellular response to DNA damage. (615 aa)
B0W5V3_CULQUNuclear pore complex protein nup93. (318 aa)
B0W5U4_CULQUEmbryonic polarity protein dorsal. (845 aa)
B0W5U2_CULQUEmbryonic polarity dorsal. (676 aa)
B0W5H4_CULQUSentrin/sumo-specific protease senp7. (144 aa)
B0W5A5_CULQUSentrin/sumo-specific protease senp7. (186 aa)
B0W3V0_CULQUHTH CENPB-type domain-containing protein. (170 aa)
B0W3U7_CULQUSumo ligase, putative. (952 aa)
B0W3R2_CULQURING-type domain-containing protein. (755 aa)
B0W3G0_CULQUUncharacterized protein. (521 aa)
B0W322_CULQUEmbryonic polarity dorsal. (406 aa)
B0W314_CULQUUncharacterized protein. (218 aa)
B0W2J2_CULQURWD domain-containing protein. (307 aa)
B0W290_CULQUDaxx-like protein. (615 aa)
B0W257_CULQUUncharacterized protein. (781 aa)
B0W203_CULQURad60-SLD domain-containing protein. (437 aa)
B0W150_CULQUUncharacterized protein. (848 aa)
B0W0J8_CULQUNucleoporin. (279 aa)
B0W0E9_CULQUNuclear pore complex protein Nup155. (1371 aa)
B0VZD1_CULQUHTH CENPB-type domain-containing protein. (510 aa)
B0VZ31_CULQUHeterogeneous nuclear ribonucleoprotein k. (429 aa)
Your Current Organism:
Culex quinquefasciatus
NCBI taxonomy Id: 7176
Other names: C. quinquefasciatus, Culex fatigans, Culex pipiens fatigans, Culex pipiens quinquefasciatus, southern house mosquito
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