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Category:Team Awesome 2014

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StatusPageUserDate/TimeGO Term (Aspect)ReferenceEvidenceNotesLinks
updatedbyinstructorECOLI:HTPGDalton.Hassler, Team Awesome 20142014-03-20 09:25:31 CDTGO:0016887 ATPase activity (F)PMID:20727857ECO:0000314 direct assay evidence used in manual assertion

Fig 2 shows ATPase activity in the presence of various proteins.

challenge
unacceptableECOLI:DSBBDalton.Hassler, Team Awesome 20142014-03-20 09:23:50 CDTGO:0003756 protein disulfide isomerase activity (F)PMID:17110337ECO:0000315 mutant phenotype evidence used in manual assertion

Fig 4 shows how dsbB/dsbA complex forms a disulfide bond.

challenge
unacceptableECOLI:PPIBDalton.Hassler, Team Awesome 20142014-03-20 09:21:40 CDTGO:0003755 peptidyl-prolyl cis-trans isomerase activity (F)PMID:2007139ECO:0000314 direct assay evidence used in manual assertion

Fig 1 shows the cis and trans forms of proline that were catalyzed by cyclophilins and peptidyl-prolyl isomerases.

challenge
unacceptableECOLI:CH10Dalton.Hassler, Team Awesome 20142014-03-20 09:19:35 CDTGO:0006457 protein folding (P)PMID:7901771ECO:0000314 direct assay evidence used in manual assertion

Fig 1-B shows the competition between groS and groL for unlabelled ATP and binding at varying temperatures.

challenge
updatedbyinstructorECOLI:CLPXDalton.Hassler, Team Awesome 20142014-03-20 09:17:14 CDTGO:0016887 ATPase activity (F)PMID:11278349ECO:0000314 direct assay evidence used in manual assertion

table 2

challenge
unacceptableECOBD:C6EJZ8Dalton.Hassler, Team Awesome 20142014-03-20 09:14:46 CDTGO:0019538 protein metabolic process (P)PMID:10982797ECO:0000315 mutant phenotype evidence used in manual assertion

Fig. 6 illustrates the amount of ATP hydrolysis by clpB mutants and wild types.

challenge
unacceptablePSYA2:HTPGDalton.Hassler, Team Awesome 20142014-03-01 12:56:18 CSTGO:0005524 ATP binding (F)PMID:20727857ECO:0000314 direct assay evidence used in manual assertion

Fig 2 shows ATPase activity in the presence of various proteins.

challenge
unacceptablePSYA2:DSBBDalton.Hassler, Team Awesome 20142014-03-01 12:54:30 CSTGO:0003756 protein disulfide isomerase activity (F)PMID:17110337ECO:0000315 mutant phenotype evidence used in manual assertion

Fig 4 shows how dsbB/dsbA complex forms a disulfide bond.

challenge
unacceptablePSYA2:Q4FTV6Dalton.Hassler, Team Awesome 20142014-03-01 12:52:15 CSTGO:0003755 peptidyl-prolyl cis-trans isomerase activity (F)PMID:15998457ECO:0000314 direct assay evidence used in manual assertion

Fig 1 shows the cis and trans forms of proline that were catalyzed by cyclophilins and peptidyl-prolyl isomerases.

challenge
unacceptablePSYA2:CH10Dalton.Hassler, Team Awesome 20142014-03-01 12:48:54 CSTGO:0006457 protein folding (P)PMID:7901771ECO:0000314 direct assay evidence used in manual assertion

Fig 1-B shows the competition between groS and groL for unlabelled ATP and binding at varying temperatures.

challenge
unacceptablePSYA2:CLPXDalton.Hassler, Team Awesome 20142014-03-01 12:46:21 CSTGO:0008270 zinc ion binding (F)PMID:11278349ECO:0000315 mutant phenotype evidence used in manual assertion

Fig. 1 shows that when you increase the amount of clpX, the amount of zinc increases as well.

challenge
unacceptablePSYA2:Q4FTI2Dalton.Hassler, Team Awesome 20142014-03-01 12:43:21 CSTGO:0019538 protein metabolic process (P)PMID:10982797ECO:0000315 mutant phenotype evidence used in manual assertion

Fig. 6 illustrates the amount of ATP hydrolysis by clpB mutants and wild types.

challenge

Pages in category "Team Awesome 2014"

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