CmaCh05G006160 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh05G006160
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionProteasome subunit beta
LocationCma_Chr05: 3091084 .. 3099525 (-)
RNA-Seq ExpressionCmaCh05G006160
SyntenyCmaCh05G006160
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGGCGATGGTGAAATGCATCCATGTATGGGTTTTTTAAAATAAAATAAATAAATAATTAATTATAAGTTTAGATTTTTTTAATAAATAAAAAATTTTATAAATTGAGTGAAAATTACTGATATAACGATTATATAATTTGGTTATTTTTTATTTTTAAAGATCAAAATTTTAGCATTTAAAAAAATAATTATTATAAATATATTTTATAATAAAGAAAACAAACCTATGGATGTATGATAAAAGGACATGCATATGCATGAATGGGAGTGGCATCCATGGCGCCACAGGTTTCCGTTTCGGGAAGACATTGACTATAAATTCATCATCTTCTTCAAGCTCCAGCCGCGCAGAATCAGAGCCATAAGAAGAAGAGACAGTGGCAGAGAGAAACGCCCTAATTTTTCTTCTCTTCAGCTAAACGCGAATCCGTTTAGCCTCTTCGTTTCTCTCCTGCCTTCTGCTATATAAGTTTTCGGCTCTCTCTCAAGTGGAGCAGAGGAATTCATTTGTTTAAACTCGTCGGAGTTCTTGTAAGCATCGGCCTCTCATTTTCTGTTCTCCTCATTTCTGCGTTTTCGAATCGAATGATGTGATTATTCTCGCTGGAGAGGTTTTCGAGTGGATTTTGTGTTCTGTCTTGCGATAAATCTATTGTTATTTTGTCTGTTTATTTTTTGGTTTGGAATTTGTTCTGGCGAGAAGGATTTCGAGTAGTCGACGAGCTTAAATTTGAATGAATTTGTTGATTTAATCGAGGGAGGACTAAATCATTTAGAACAGAACAAGACGAAGGACTTTAGGAATTCTTGTCCTAATTGATTTATTTTCGGGAAAATTGTTCTTGCAGGACGTCAATTTAATCATGGTTCTTTGGGTGTTTGGCTATGGATCTCTTGTGTGGAATCCGGGATTCGATTTCGATGAGAAAATGATGGGTTTCATTAGAGATTATAGGCGTGTATTCGACCTTGGTGAGTTTCTTCCTCTCGACATTCGAATTCGTTAATGGCAACAAAAGTTTTCTAATATCTCATTTCCCATTCTACAGCTTGTATTGATCATAGAGGTACACCTGAAAATCCTGCTAGAACTCTCACGCTGGAACCTAAAGAAGGATCAATTTGCGTAAGTTCTAAATCCATATTCATTTTCTATAATGGAAGAATTTTCATAACCTTACCTAATTAGCATTATTTCTTTCTGTCAGTGGGGTGCTGCATATTGCATCCGTGGAGGTCCTGAAAAAGAGAAAGAGGCCATGGAGGTATTCCCCTCAAATTTGTCTTGATTTCACTAAAAGCCAGAATTTATTCCCTTACCCTTTGTCTTTTGCAATATAGTATCTGGAGAGGAGAGAATGCGAGTATGATCAAAAGACTATTGTAGACTTCTACAAGGTAATGCTAAGGCCATATGGAAGAGCTTGCTTCATTATTGGGTGTGTTCCGTTTGTCGTGTTCTTATTTTCGATCCGTTTCCTTTGTTGATTCAGGATGAAGGCTCCATGGAACCCACATTGACAGGAGTTCTTGTGTAAGCTTAAACATGTCACTTTTGTTCAAATTCTTACATGGGACTGGTTGAACAAGAACATGAACGTTTCTGTTTTCTTGATCTGATAAATTTCATGTTTATATATGCAGTTTTACATCTACACCTGATAAATTACTGAACAAATACTATCTAGGACCTGCTCCCTTGGAGCAAATGGCTAGGTAATGGCTAGGTTTACCACTGTGCTTTCAATGTTTTATACCTCCCCTGAAATGGGTTCTTTCTAAATCGTTTATTTACTCACTTTTCAGCCAAATTGCAACTGCTTCTGGTCCATGTGGGAACAATAGAGACTATCTATTTCGGTTAGAGAAGGCCTTGTTCGATATCGGTAACGATCCAGTTCTTTGATTATAATTGAGTTCTAAGTTGATTGTACCAGCTACATTTGAGTTTGAAATTGAGTATCTGCATAACTGATCAGGCCACGAAGAAGATATGGTGATCGAGCTTGCGAACGAAGTGAGGAATGTCCTTGGGAAGGTCGGAAAGAAGAAGCTTATTGGGCCGACGACCCACCTGCCTTTCATGTCCTTCATCTCAGGAGTTCAGGTGCATCCTCTGGCAGAAGCAGCTGTGGCCATAGATTCTTAGAAAAGACGGAGAGATTGGTTGAGTAAGCTAACTGAAGATCATTTGGATTGATAGACTGCCACTTCTTTGATTCACTTATGATTTCCCTCGCTGTTTCTGATATGACCCAATAGAGTTGTTCTTCCTCTGCGTCTTAGAGCTTAGCTTTAGACCATTTTTAGAGATTTAAGATTGAAGAATGGTAGAGAATGAGTTACTTCGCTAACGGTGAGTTTACACAGTATTTTATGAATCTTACTTTATCACTTGAATACGAAATCAAATAACTAGTTGTTTTGGAGTTTTTCATTTTGTTTATAGTAATCTCCATACTAAACAAGAACTTAAGTCAAATATAGTAATAGTAATGATTGCAAGCACCTGTTTTTAGTCCGAGTCAAATATATTAATGGTTCCAAGCACCTCTTAAATATAGTGATGATTCAAAGTAACTCTTTTTAGTTTGAATCAAATATGGTAATAATTCCAAGCTTCTTTTTACACTATTTAGGAAACTCAAATACAAAAGTTAATCAAATAGTCAACTGATACACAATTTAGAGTGAGTAAACAGAATTTCATACTCGATCTCATAGATACATATATAATTTTGTGGAACTATGTAGATTTGGAGGAGATCTTTCATATCTTCTAAGATCCAAAAGAAAACTGATTCTTGAACCCTTTTCAATGAATGGTGGCTTAAGAAGCATTCAAAGTTCACTGCAATATCCAAAATCTTTGCATTCAACGTTCATTGCAATATTCAAAATCTTCGCACTCAACTTTCACTGTAATATCCAAAATCTTCGCACTCAACTTTCACTGTAATATCCAAAATTTTCGCACTCAACTTTCACTGTAATCTTCACAATAAAGCAGTTAATGACTAAATTTTATAATAAATTATAATTAATTAAAAGATTATAACTTTTATGATTATCAATACAAGAGCTAATTGTAGCATATAATCTTAGAGATAATTTTCTAAAATTTTAAAAATATAATAAAACCTATTTACATCTAAACAATTTAATTATATTTTGGGTAATTAGTATATTTTAAAAATATAATAAAACCTATTTACATCTAGAAGACACCTATATATCTAAGGCCACAGATGCCTTAGCTAGTATTGGAAGTAGATAATTAGTATATTTTGGGTAAAAAGATTAAACTTAAAATTCACATTTTTAATTATATTATATAATAATTCTCACTTTAATTTAAAATGAGAAATTTATGGTTTAATCTTTTTAAAATAAATAAAAAAAGATTTATACTTTTTATTCATTGGAGAAGAAATGTGATTTAGGGTTTAATTTTGTGGTTTATTGGAAAATCAATATTTTCACAATTAATTTTGGGGACTACCATTATGGGCCGTCATAAAGCCCAAATCGATATATACCCACAAAGGCTTTGGACTTTAACTCGGAGCCCAATTTTGTAGCTTGGCCCAAAACATAACGAGCAAAAGGAAAAAAAAACAAAAAGAAAAGAAAAAGAAAAAGAAAAACTACTTGATCGAGAAGTAAGGTCGAAGAACAAAAGCCCCCAACACCAAAATCGAGCTCTTTCATTCTCCGGCAATACGTCCTCTTTCACGACCGTATTTGAATTTCGCTCTGGTTTCTTTCGAGTAGCTTCTCACCGCCATGGATCTCAATATGGATCTTAATGCTCCTCACTCCATGGGTACCACCATCATCGGCGTCACATACGACGGCGGCGTTGTCCTCGGCGCCGATTCTCGTACCAGCACTGGTAAATTTATCGTAGTTTCTTAAAGAGATGTCCGAAATGATTAAATTCAATTGGAGGAAAAGTAGTAATAATTTGTCTCTTTGTCGAACTGGGAAGAAAATCATTTTGTATCCATCACATTCGGAATCTAGCTTAGCTTTGTTGTTTCGAGTTCTTATGAGTAGGTAATCATTGAAAGAGTTCATTTCTCGTGTTGTTCACCCCCTCTCCCCTGAATGGGCAAATAGCGAGAGTAATTGAGTGGATTTCGTTGTTGGTTGGATTTTCTTCATGTGAATCTTCTGCATTTGTTGGTCTTTTCAAGCATAGCTGCTTAATATGACGAGCTTTAGGGAATACCAATTGTCCGTTACAGTGATGGGTTCTGAAAAATTATGTAATCTAGTGGAGGGGGATGCACGAAGAGTTTTTAAACTCATCTCCCAAGCAATCATCAATAACCTGTTTACATATTAAATGGAAAAATTAATCTCAGTTCGTTTGTTTTCATCCACTTTTTCCCTCTTTGCGTGCTTTCTTGTGCTGCATTGATGTTTATATTTTTTTTAATTGTTCTTGTGATAGGTGTTTATGTGGCTAATCGTGCATCTGACAAAATTACAAAGCTTACTGACAATGTCTATGTTTGTCGGTCTGGCTCGGTATTTCCATTTCTGTTCTCAATTTTTTCCTTCAACTTCTTGTTCTAGAATTAAGATGTCAGAAAATCTCTCAGTTCATGGGTGTTTGCTATTGTTTCATAAATGTCTTATTTTGTGCCTCTTGCAGGCTGCAGATTCTCAAATTGTCTCTGATTACGTGCGTCATTTCCTTCATCAGCATACGTGAGTGCTTTAATTATTGGCGGTGTTATGTTGCAAATTTGAATCTGTAGGTTAATTATAACTCGATCACTTTGAGCAATTTTCTTTCATTGTTTGTGATGAATTTTGGAAGATTGGATCTGCTAGCAAGTGCATTTCTTTTTGTCTGTTTTCTCAGTGAGTTTAAAAACTGTTGGAAAGAGTTGAAAATTCTTTACTTTATTCCGGTGTATAAATCAATTACTAAGGTGTTGGAGGAAGAAGCACGATGATTTATTTAAGCACAATGATTTATTTTTCTGTCACTTGATACGATAACAAGCCGTTATGTTAACTAGCTTGATGAGTTCTGGGGATTATTGTTATAACTCTAGATATGCTTGATCTGATGGGAATTTGTACTTCGGATCATTAAAGATGGTGTTTATTTAGAACTTCTCTTGGCAACTGTACTTGTTTATACATCCCCTACGAACTGTCTGAAGATATGCTGTTATTGGTAATTGTAATACAGTTGGTTCTTTTTAATCCTAAATTGCTCTTACTACCTCCGTTTCATTATTGTCTCTTTGCTGATATGTCAACCTAAAGACGGTTGTTACTCATTCTGATTTCTGGTTTCAGTTTTCATCATTAACAAGTTATTTGATATAAATGAGGAAGCCGCTTGAATTTATGTGCGAGTTTTTTCCTGTCGAGTTCTTTCTTATTATGTATTATTTTTTATGCACAGGATACAGCTTGGCCAGCCTGCGACTGTTAAAGTGGCTGCAAACCTTGTTAGGCTATTAGCATATAACAACAAGGTAGGAGCTCATATTAGTTTGTTCAAAAGTATCCTCATAAAAAATGTATGGATAGCAATTTTGGATAAGAAACGATACAATTCATTGAAACAGTACAAATTCCCCAACCCAGACAAGGAGATTGAAAAAATCTCTCCAATTGGCCAAAATTATGGAAACAGACTAATGACACAAGTGCCTAGCTGGAGAACAGAAACCTCTTTTCTATAGATTTATTTAGCAACCAGAGCTCGCAGAAAATAACCATAATCATATTGATCCACAGAACCATTCATTTTTCTCTGAGAGGGGGACTGCTTTAGGCCTGTTGTGTACATATTTTAGCCTTAATGATTGATAAGTCTTACCCTCTTTTTTGGAATAAAAGATAATTGTATTAAAATTTAAGTACAAATATGAGTTCAAAAGGGGAGGAGGAGGAGGAAACGTCCCAACTAGCTTTAGTAGATAAAAGGATAACTCTGCAATTGAGTAGAACATCATCACAGTTCCTTTCCTTTCTGTTCTTGTGTAATGAACATTTCAGAGTTTCATGTTAAAATAAAACGAGAAAGAGAGGAAAGGAAATGAATTAGGTCAAATATAAATAATGTATGGACATTTTAATACTGGAATTCACTTAGAATGAAGAACCCGTGACTTGTGAGACTGCACAAATTCGTATTCAGCCTTTATGTTTTCTTGAAAATGATTTGGAGCTTTTCATAAAAATTCGTTGTATTGTGTTTAGGATCATTACGGGTTGTTTATGAATTCAACACAAGTAAAGAATGAGAGATTTTCAGGGTTCTACTAAGCATCCACTTCTGTTTTTATTTTCTTTTATTTTCTAATTTTTATCTTAGTGTTTATTCATTCAAACAATCCAAAACAAAAACCATTGGATAGTTGTTTGATGGACTTTGATACATTCCTCTTTTAAAATTGTGGAAAAGATACTCACCCTTTGCTTTAATGTGGTTATGTGGGGTATCTGGGGACAGTGGGAGGAGGGTCTCTCTTCCTCTCTCTCTGAACCAGTTTTGTATGCGAGTGAAGTCACACCACTTAACTCCAATAAAATGTTCACAAGAGTGCTCTTTTCTTGCTATGTTCAAGTGAAGCTATATTCTTGTTTTTCTTATCCAAACTAAATACATGCTTTAATATCAATGCCGTTTCATTGAATGGGCAGGATATGTTACAAACTGGCCTTATTGTTGGTGGATGGGACAAGTATAACGGTGGTCGAATCTATGGTATTCCTCTTGGTGGAACAATAATAGAGCAGCCATTTGCTATTGGAGGTACCCTATTGGTTATAAAAAAAATAAAAGTTATGATGTATGGTGAATTCTTTTCTGGCATCCTCATGTTTTCTAGCTTTATGATGTGGTCTTCTGCTTTATCATCCTTGAATGAATGAGTTTTGATTAGATTTTTATGCCCCTACATCTGGTTTTTGATATACTGAACCCATAGAGATGGGAATCTCAAGCATGTCTTCTATGTCGAGAAAATATCATCCTCTCTCCCCTTCTCTTCTTTTGGTAATTAGATTTCGGACATTTGCTGTTACAATCCTTTGTTCTCTACTTGCAAGTATGATCATTACCTGGTTTCTCTTATTATTTTACAGGATCTGGCTCCAGTTACTTGTATGGTTTTTTTGATCAAGCGTGGAGAGAAGGAATGACTAGGGAAGAAGCTGAGGTATTTCTACTACTCTTATTTGCGAATCAAGTGTTCTGCATTATTATATTCTTTGTGCTTGCTGACTCAAATGCATACGGTTTTTTGGATGCATTCTTTTAGGCTCCGACCACTTCCAAATATTGGTATTTCTTTGTTCTTCATTTCATGTTCATCTTAGTATAATAGCCCAACGTTTATGACTAGCAGATATTGTCCGCTTTAGGCTTTCTCTTTCTGACTTCCTCTCAAGGATTTTAAAATGCGTCTACTAAGGAGAGGTTTCCACACCTTTATAAAGAATGTTTAGTTCTCCTTCCTGACCGAGGTGGATTACAAGTTTTTATCTGTTCTGCATTCCATGCTCACCTGTAAGATGCGCATCGTAGTTACTCAAGAAATGTTCCTTTTAAGGGAAATATTTCTTCTCTAAGCACCTTTCGAGAAAGCACTTATTGAGGTGGAGTTTGCTAAGTGCAATCTCTGAGACATGAACTTAGTCGACGGGGGTTTTTTCTCTCTCTGATTATATGCTATCATTTGCAGCAATTGGTGGTTAAGGCCGTTTCTCTTGCCATTGCTCGAGATGGTGCAAGTGGTGGTGTTGTCCGTACTGTTACTGTAAGAGAATGTTCTTTTATAACATAATCTATTACTTAAAATCATGTTCAATCTTTAGTTCTCATAGCTAAAAACTGTTGCGTGAACTCGGGCATTTTCAGATAAATTCCGAGGGAGTTGCAAGAAAATTCTATCCCGGGGATCAGCTACCGCTGTGGCACGAGGAATTAGAACCTAAAAATTCATTACTGGATGTTCTGAATGCTTCTAGCCCCGAACCGATGAACGTATAAAGCTAATGCTCGGATCTCTGCCAAAAGTTCTGATGGTAACTCTTATCTGGTTAGGCTATTCTACTTTTCTGGAAAAAAAAGAGAAGAAAAGACATGCGCCCTCATTGTGTAAACCTAATTATGTTTTACTTTGCATGAATTTTTTAGTGTACAATGTTTGAGTTTACTCTTGGTCTATGGCACATGCTTATTCCTGCTGCCAAACACATTTTCTTAGAATATACAAAAAAAAACAAAAGAAACCCGAACCAAACCATTAACTGCGGGGGGGTTGCGATGCTCTCGTTGTCAAATTCGTTTAGTGTCTTCTATAAACGGAAGTAACTCATTGTAGACATTCGTTTTCTTGATGATCATATTCAGACTATTGATGAGTTGGTTTCCTCATAAATTGGAATAAGCTCTTAGTCCA

mRNA sequence

ATGGCGATGGTGAAATGCATCCATGACGTCAATTTAATCATGGTTCTTTGGGTGTTTGGCTATGGATCTCTTGTGTGGAATCCGGGATTCGATTTCGATGAGAAAATGATGGGTTTCATTAGAGATTATAGGCGTGTATTCGACCTTGCTTGTATTGATCATAGAGGTACACCTGAAAATCCTGCTAGAACTCTCACGCTGGAACCTAAAGAAGGATCAATTTGCTGGGGTGCTGCATATTGCATCCGTGGAGGTCCTGAAAAAGAGAAAGAGGCCATGGAGTATCTGGAGAGGAGAGAATGCGAGTATGATCAAAAGACTATTGTAGACTTCTACAAGGATGAAGGCTCCATGGAACCCACATTGACAGGAGTTCTTGTTTTTACATCTACACCTGATAAATTACTGAACAAATACTATCTAGGACCTGCTCCCTTGGAGCAAATGGCTAGCCAAATTGCAACTGCTTCTGGTCCATGTGGGAACAATAGAGACTATCTATTTCGGTTAGAGAAGGCCTTGTTCGATATCGGCCACGAAGAAGATATGGTGATCGAGCTTGCGAACGAAGTGAGGAATGTCCTTGGGAAGGTCGGAAAGAAGAAGCTTATTGGGCCGACGACCCACCTGCCTTTCATGTCCTTCATCTCAGGAGTTCAGCTTCTCACCGCCATGGATCTCAATATGGATCTTAATGCTCCTCACTCCATGGGTACCACCATCATCGGCGTCACATACGACGGCGGCGTTGTCCTCGGCGCCGATTCTCGTACCAGCACTGGTGTTTATGTGGCTAATCGTGCATCTGACAAAATTACAAAGCTTACTGACAATGTCTATGTTTGTCGGTCTGGCTCGGCTGCAGATTCTCAAATTGTCTCTGATTACGTGCGTCATTTCCTTCATCAGCATACGATACAGCTTGGCCAGCCTGCGACTGTTAAAGTGGCTGCAAACCTTGTTAGGCTATTAGCATATAACAACAAGGATATGTTACAAACTGGCCTTATTGTTGGTGGATGGGACAAGTATAACGGTGGTCGAATCTATGGTATTCCTCTTGGTGGAACAATAATAGAGCAGCCATTTGCTATTGGAGGATCTGGCTCCAGTTACTTGTATGGTTTTTTTGATCAAGCGTGGAGAGAAGGAATGACTAGGGAAGAAGCTGAGCAATTGGTGGTTAAGGCCGTTTCTCTTGCCATTGCTCGAGATGGTGCAAGTGGTGGTGTTGTCCGTACTGTTACTATAAATTCCGAGGGAGTTGCAAGAAAATTCTATCCCGGGGATCAGCTACCGCTGTGGCACGAGGAATTAGAACCTAAAAATTCATTACTGGATGTTCTGAATGCTTCTAGCCCCGAACCGATGAACGTATAAAGCTAATGCTCGGATCTCTGCCAAAAGTTCTGATGGTAACTCTTATCTGGTTAGGCTATTCTACTTTTCTGGAAAAAAAAGAGAAGAAAAGACATGCGCCCTCATTGTGTAAACCTAATTATGTTTTACTTTGCATGAATTTTTTAGTGTACAATGTTTGAGTTTACTCTTGGTCTATGGCACATGCTTATTCCTGCTGCCAAACACATTTTCTTAGAATATACAAAAAAAAACAAAAGAAACCCGAACCAAACCATTAACTGCGGGGGGGTTGCGATGCTCTCGTTGTCAAATTCGTTTAGTGTCTTCTATAAACGGAAGTAACTCATTGTAGACATTCGTTTTCTTGATGATCATATTCAGACTATTGATGAGTTGGTTTCCTCATAAATTGGAATAAGCTCTTAGTCCA

Coding sequence (CDS)

ATGGCGATGGTGAAATGCATCCATGACGTCAATTTAATCATGGTTCTTTGGGTGTTTGGCTATGGATCTCTTGTGTGGAATCCGGGATTCGATTTCGATGAGAAAATGATGGGTTTCATTAGAGATTATAGGCGTGTATTCGACCTTGCTTGTATTGATCATAGAGGTACACCTGAAAATCCTGCTAGAACTCTCACGCTGGAACCTAAAGAAGGATCAATTTGCTGGGGTGCTGCATATTGCATCCGTGGAGGTCCTGAAAAAGAGAAAGAGGCCATGGAGTATCTGGAGAGGAGAGAATGCGAGTATGATCAAAAGACTATTGTAGACTTCTACAAGGATGAAGGCTCCATGGAACCCACATTGACAGGAGTTCTTGTTTTTACATCTACACCTGATAAATTACTGAACAAATACTATCTAGGACCTGCTCCCTTGGAGCAAATGGCTAGCCAAATTGCAACTGCTTCTGGTCCATGTGGGAACAATAGAGACTATCTATTTCGGTTAGAGAAGGCCTTGTTCGATATCGGCCACGAAGAAGATATGGTGATCGAGCTTGCGAACGAAGTGAGGAATGTCCTTGGGAAGGTCGGAAAGAAGAAGCTTATTGGGCCGACGACCCACCTGCCTTTCATGTCCTTCATCTCAGGAGTTCAGCTTCTCACCGCCATGGATCTCAATATGGATCTTAATGCTCCTCACTCCATGGGTACCACCATCATCGGCGTCACATACGACGGCGGCGTTGTCCTCGGCGCCGATTCTCGTACCAGCACTGGTGTTTATGTGGCTAATCGTGCATCTGACAAAATTACAAAGCTTACTGACAATGTCTATGTTTGTCGGTCTGGCTCGGCTGCAGATTCTCAAATTGTCTCTGATTACGTGCGTCATTTCCTTCATCAGCATACGATACAGCTTGGCCAGCCTGCGACTGTTAAAGTGGCTGCAAACCTTGTTAGGCTATTAGCATATAACAACAAGGATATGTTACAAACTGGCCTTATTGTTGGTGGATGGGACAAGTATAACGGTGGTCGAATCTATGGTATTCCTCTTGGTGGAACAATAATAGAGCAGCCATTTGCTATTGGAGGATCTGGCTCCAGTTACTTGTATGGTTTTTTTGATCAAGCGTGGAGAGAAGGAATGACTAGGGAAGAAGCTGAGCAATTGGTGGTTAAGGCCGTTTCTCTTGCCATTGCTCGAGATGGTGCAAGTGGTGGTGTTGTCCGTACTGTTACTATAAATTCCGAGGGAGTTGCAAGAAAATTCTATCCCGGGGATCAGCTACCGCTGTGGCACGAGGAATTAGAACCTAAAAATTCATTACTGGATGTTCTGAATGCTTCTAGCCCCGAACCGATGAACGTATAA

Protein sequence

MAMVKCIHDVNLIMVLWVFGYGSLVWNPGFDFDEKMMGFIRDYRRVFDLACIDHRGTPENPARTLTLEPKEGSICWGAAYCIRGGPEKEKEAMEYLERRECEYDQKTIVDFYKDEGSMEPTLTGVLVFTSTPDKLLNKYYLGPAPLEQMASQIATASGPCGNNRDYLFRLEKALFDIGHEEDMVIELANEVRNVLGKVGKKKLIGPTTHLPFMSFISGVQLLTAMDLNMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRSGSAADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKYNGGRIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIARDGASGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPMNV
Homology
[Close]
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match: Q8LD27 (Proteasome subunit beta type-6 OS=Arabidopsis thaliana OX=3702 GN=PBA1 PE=1 SV=2)

HSP 1 Score: 418.7 bits (1075), Expect = 8.5e-116
Identity = 203/233 (87.12%), Postives = 223/233 (95.71%), Query Frame = 0 

Query: 225 MDLNMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRS 284
           MDLN+D  APHSMGTTIIGVTY+GGVVLGADSRTSTG+YVANRASDKIT+LTDNVYVCRS
Sbjct: 1   MDLNLD--APHSMGTTIIGVTYNGGVVLGADSRTSTGMYVANRASDKITQLTDNVYVCRS 60

Query: 285 GSAADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKY 344
           GSAADSQ+VSDYVR+FLHQHTIQ GQPATVKV+ANL+R+LAYNNK+MLQTGLIVGGWDKY
Sbjct: 61  GSAADSQVVSDYVRYFLHQHTIQHGQPATVKVSANLIRMLAYNNKNMLQTGLIVGGWDKY 120

Query: 345 NGGRIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIAR 404
            GG+IYGIPLGGT++EQPFAIGGSGSSYLYGFFDQAW++ MT+EEAEQLVVKAVSLAIAR
Sbjct: 121 EGGKIYGIPLGGTVVEQPFAIGGSGSSYLYGFFDQAWKDNMTKEEAEQLVVKAVSLAIAR 180

Query: 405 DGASGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPM 458
           DGASGGVVRTV INSEGV R FYPGD+L LWHEELEP+NSLLD+LNA+ PEPM
Sbjct: 181 DGASGGVVRTVIINSEGVTRNFYPGDKLQLWHEELEPQNSLLDILNAAGPEPM 231

[Close]
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match: P93395 (Proteasome subunit beta type-6 OS=Nicotiana tabacum OX=4097 PE=2 SV=1)

HSP 1 Score: 404.4 bits (1038), Expect = 1.7e-111
Identity = 197/230 (85.65%), Postives = 214/230 (93.04%), Query Frame = 0 

Query: 228 NMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRSGSA 287
           N D++ PHSMGTTIIGVTY+GGVVLGADSRTSTG+YVANRASDKIT+LTDNVYVCRSGSA
Sbjct: 3   NTDVDQPHSMGTTIIGVTYNGGVVLGADSRTSTGMYVANRASDKITQLTDNVYVCRSGSA 62

Query: 288 ADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKYNGG 347
           ADSQIVSDYVR+FLHQHTIQLGQPATVKVAANL RLL+YNNKD LQTG+I+GGWDKY GG
Sbjct: 63  ADSQIVSDYVRYFLHQHTIQLGQPATVKVAANLTRLLSYNNKDRLQTGMIIGGWDKYEGG 122

Query: 348 RIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIARDGA 407
           +IYGIP GGT++EQPFAIGGSGSSYLYGFFDQAW+EGMT+EEAE+LVV AVSLAIARDGA
Sbjct: 123 KIYGIPPGGTVLEQPFAIGGSGSSYLYGFFDQAWKEGMTQEEAEKLVVTAVSLAIARDGA 182

Query: 408 SGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPM 458
           SGGVVRTVTIN +G  RKFY GD L LWHEELEP NSLLDV+ ASSP PM
Sbjct: 183 SGGVVRTVTINKDGATRKFYSGDSLQLWHEELEPVNSLLDVVFASSPVPM 232

[Close]
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match: Q8GY54 (Gamma-glutamylcyclotransferase 2-1 OS=Arabidopsis thaliana OX=3702 GN=GGCT2;1 PE=1 SV=1)

HSP 1 Score: 320.5 bits (820), Expect = 3.2e-86
Identity = 143/182 (78.57%), Postives = 164/182 (90.11%), Query Frame = 0 

Query: 14  MVLWVFGYGSLVWNPGFDFDEKMMGFIRDYRRVFDLACIDHRGTPENPARTLTLEPKEGS 73
           MVLWVFGYGSL+WNPGFDFDEK++G+I+DY+RVFDLACIDHRGTPE+PART TLE   G+
Sbjct: 1   MVLWVFGYGSLIWNPGFDFDEKLIGYIKDYKRVFDLACIDHRGTPEHPARTCTLEQSTGA 60

Query: 74  ICWGAAYCIRGGPEKEKEAMEYLERRECEYDQKTIVDFYKDEGSMEPTLTGVLVFTSTPD 133
           ICWGAAYC+RGGPEKEK AMEYLERRECEYD KT+V+FY +  +  P +TGV+VFTSTPD
Sbjct: 61  ICWGAAYCVRGGPEKEKLAMEYLERRECEYDSKTLVEFYTENDTSTPIVTGVIVFTSTPD 120

Query: 134 KLLNKYYLGPAPLEQMASQIATASGPCGNNRDYLFRLEKALFDIGHEEDMVIELANEVRN 193
           K+ NKYYLGPAPLE+MA QIATASGPCGNNR+YLF+LEKA+FDI HEE+ VIELANEVR 
Sbjct: 121 KVSNKYYLGPAPLEEMARQIATASGPCGNNREYLFKLEKAMFDIEHEEEYVIELANEVRK 180

Query: 194 VL 196
            L
Sbjct: 181 QL 182

[Close]
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match: Q84MC1 (Gamma-glutamylcyclotransferase 2-2 OS=Arabidopsis thaliana OX=3702 GN=GGCT2;2 PE=1 SV=1)

HSP 1 Score: 318.9 bits (816), Expect = 9.2e-86
Identity = 144/190 (75.79%), Postives = 166/190 (87.37%), Query Frame = 0 

Query: 14  MVLWVFGYGSLVWNPGFDFDEKMMGFIRDYRRVFDLACIDHRGTPENPARTLTLEPKEGS 73
           MV+WVFGYGSLVWNPGF +DEK++GFI+ Y+RVFDLACIDHRGTPE+PART TLE  E +
Sbjct: 1   MVMWVFGYGSLVWNPGFHYDEKVLGFIKGYKRVFDLACIDHRGTPEHPARTCTLEKAEEA 60

Query: 74  ICWGAAYCIRGGPEKEKEAMEYLERRECEYDQKTIVDFYKDEGSMEPTLTGVLVFTSTPD 133
           ICWG A+C+RGGPEKE+ AMEYLERRECEYD KT VDFYK++  ++P +TGV+VFTSTPD
Sbjct: 61  ICWGTAFCVRGGPEKERLAMEYLERRECEYDLKTSVDFYKEDDPLKPAVTGVIVFTSTPD 120

Query: 134 KLLNKYYLGPAPLEQMASQIATASGPCGNNRDYLFRLEKALFDIGHEEDMVIELANEVRN 193
           K+ NKYYLGPAPLE MA QIATA+GPCGNNRDYLF LEKA+ DIGHEED VIELANEVR 
Sbjct: 121 KVSNKYYLGPAPLEDMARQIATANGPCGNNRDYLFLLEKAMHDIGHEEDYVIELANEVRK 180

Query: 194 VLGKVGKKKL 204
           VL +   KK+
Sbjct: 181 VLAESSTKKV 190

[Close]
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match: Q55GJ6 (Proteasome subunit beta type-6 OS=Dictyostelium discoideum OX=44689 GN=psmB6 PE=1 SV=1)

HSP 1 Score: 231.9 bits (590), Expect = 1.5e-59
Identity = 106/201 (52.74%), Postives = 151/201 (75.12%), Query Frame = 0 

Query: 237 MGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRSGSAADSQIVSDY 296
           +GT+I+ V YDGGV++GADSRT+TG Y+ANR ++KIT + + +Y CRSGSAAD+Q +SDY
Sbjct: 13  LGTSIMAVEYDGGVIMGADSRTTTGAYIANRVTNKITPIHERIYCCRSGSAADTQAISDY 72

Query: 297 VRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKYNGGRIYGIPLGG 356
           VR++L  HT +L     VK AA+L +LL Y+NK+ L  G+IV GWDK+ GG +Y I LGG
Sbjct: 73  VRYYLEMHTSELCDEPDVKTAASLFQLLCYSNKNNLMAGIIVAGWDKHQGGSVYNISLGG 132

Query: 357 TIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIARDGASGGVVRTVT 416
           ++++QPFAIGGSGS+Y+YG+ D  ++  MT++E  + V  +++LA+ RDG+SGGV+R   
Sbjct: 133 SMVKQPFAIGGSGSTYIYGYCDSKFKPKMTKDECIEFVQNSLALAMFRDGSSGGVIRLCI 192

Query: 417 INSEGVARKFYPGDQLPLWHE 438
           I+  GV RK  PG+ LP + E
Sbjct: 193 IDKNGVERKMIPGNNLPRFWE 213

[Close]
BLAST of CmaCh05G006160 vs. TAIR 10
Match: AT4G31300.1 (N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein )

HSP 1 Score: 418.7 bits (1075), Expect = 6.1e-117
Identity = 203/233 (87.12%), Postives = 223/233 (95.71%), Query Frame = 0 

Query: 225 MDLNMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRS 284
           MDLN+D  APHSMGTTIIGVTY+GGVVLGADSRTSTG+YVANRASDKIT+LTDNVYVCRS
Sbjct: 1   MDLNLD--APHSMGTTIIGVTYNGGVVLGADSRTSTGMYVANRASDKITQLTDNVYVCRS 60

Query: 285 GSAADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKY 344
           GSAADSQ+VSDYVR+FLHQHTIQ GQPATVKV+ANL+R+LAYNNK+MLQTGLIVGGWDKY
Sbjct: 61  GSAADSQVVSDYVRYFLHQHTIQHGQPATVKVSANLIRMLAYNNKNMLQTGLIVGGWDKY 120

Query: 345 NGGRIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIAR 404
            GG+IYGIPLGGT++EQPFAIGGSGSSYLYGFFDQAW++ MT+EEAEQLVVKAVSLAIAR
Sbjct: 121 EGGKIYGIPLGGTVVEQPFAIGGSGSSYLYGFFDQAWKDNMTKEEAEQLVVKAVSLAIAR 180

Query: 405 DGASGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPM 458
           DGASGGVVRTV INSEGV R FYPGD+L LWHEELEP+NSLLD+LNA+ PEPM
Sbjct: 181 DGASGGVVRTVIINSEGVTRNFYPGDKLQLWHEELEPQNSLLDILNAAGPEPM 231

[Close]
BLAST of CmaCh05G006160 vs. TAIR 10
Match: AT4G31300.3 (N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein )

HSP 1 Score: 418.7 bits (1075), Expect = 6.1e-117
Identity = 203/233 (87.12%), Postives = 223/233 (95.71%), Query Frame = 0 

Query: 225 MDLNMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRS 284
           MDLN+D  APHSMGTTIIGVTY+GGVVLGADSRTSTG+YVANRASDKIT+LTDNVYVCRS
Sbjct: 1   MDLNLD--APHSMGTTIIGVTYNGGVVLGADSRTSTGMYVANRASDKITQLTDNVYVCRS 60

Query: 285 GSAADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNKDMLQTGLIVGGWDKY 344
           GSAADSQ+VSDYVR+FLHQHTIQ GQPATVKV+ANL+R+LAYNNK+MLQTGLIVGGWDKY
Sbjct: 61  GSAADSQVVSDYVRYFLHQHTIQHGQPATVKVSANLIRMLAYNNKNMLQTGLIVGGWDKY 120

Query: 345 NGGRIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIAR 404
            GG+IYGIPLGGT++EQPFAIGGSGSSYLYGFFDQAW++ MT+EEAEQLVVKAVSLAIAR
Sbjct: 121 EGGKIYGIPLGGTVVEQPFAIGGSGSSYLYGFFDQAWKDNMTKEEAEQLVVKAVSLAIAR 180

Query: 405 DGASGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPM 458
           DGASGGVVRTV INSEGV R FYPGD+L LWHEELEP+NSLLD+LNA+ PEPM
Sbjct: 181 DGASGGVVRTVIINSEGVTRNFYPGDKLQLWHEELEPQNSLLDILNAAGPEPM 231

[Close]
BLAST of CmaCh05G006160 vs. TAIR 10
Match: AT4G31300.2 (N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein )

HSP 1 Score: 414.1 bits (1063), Expect = 1.5e-115
Identity = 203/234 (86.75%), Postives = 223/234 (95.30%), Query Frame = 0 

Query: 225 MDLNMDLNAPHSMGTTIIGVTYDGGVVLGADSRTSTGVYVANRASDKITKLTDNVYVCRS 284
           MDLN+D  APHSMGTTIIGVTY+GGVVLGADSRTSTG+YVANRASDKIT+LTDNVYVCRS
Sbjct: 1   MDLNLD--APHSMGTTIIGVTYNGGVVLGADSRTSTGMYVANRASDKITQLTDNVYVCRS 60

Query: 285 GSAADSQIVSDYVRHFLHQHTIQLGQPATVKVAANLVRLLAYNNK-DMLQTGLIVGGWDK 344
           GSAADSQ+VSDYVR+FLHQHTIQ GQPATVKV+ANL+R+LAYNNK +MLQTGLIVGGWDK
Sbjct: 61  GSAADSQVVSDYVRYFLHQHTIQHGQPATVKVSANLIRMLAYNNKQNMLQTGLIVGGWDK 120

Query: 345 YNGGRIYGIPLGGTIIEQPFAIGGSGSSYLYGFFDQAWREGMTREEAEQLVVKAVSLAIA 404
           Y GG+IYGIPLGGT++EQPFAIGGSGSSYLYGFFDQAW++ MT+EEAEQLVVKAVSLAIA
Sbjct: 121 YEGGKIYGIPLGGTVVEQPFAIGGSGSSYLYGFFDQAWKDNMTKEEAEQLVVKAVSLAIA 180

Query: 405 RDGASGGVVRTVTINSEGVARKFYPGDQLPLWHEELEPKNSLLDVLNASSPEPM 458
           RDGASGGVVRTV INSEGV R FYPGD+L LWHEELEP+NSLLD+LNA+ PEPM
Sbjct: 181 RDGASGGVVRTVIINSEGVTRNFYPGDKLQLWHEELEPQNSLLDILNAAGPEPM 232

[Close]
BLAST of CmaCh05G006160 vs. TAIR 10
Match: AT5G26220.1 (ChaC-like family protein )

HSP 1 Score: 320.5 bits (820), Expect = 2.2e-87
Identity = 143/182 (78.57%), Postives = 164/182 (90.11%), Query Frame = 0 

Query: 14  MVLWVFGYGSLVWNPGFDFDEKMMGFIRDYRRVFDLACIDHRGTPENPARTLTLEPKEGS 73
           MVLWVFGYGSL+WNPGFDFDEK++G+I+DY+RVFDLACIDHRGTPE+PART TLE   G+
Sbjct: 1   MVLWVFGYGSLIWNPGFDFDEKLIGYIKDYKRVFDLACIDHRGTPEHPARTCTLEQSTGA 60

Query: 74  ICWGAAYCIRGGPEKEKEAMEYLERRECEYDQKTIVDFYKDEGSMEPTLTGVLVFTSTPD 133
           ICWGAAYC+RGGPEKEK AMEYLERRECEYD KT+V+FY +  +  P +TGV+VFTSTPD
Sbjct: 61  ICWGAAYCVRGGPEKEKLAMEYLERRECEYDSKTLVEFYTENDTSTPIVTGVIVFTSTPD 120

Query: 134 KLLNKYYLGPAPLEQMASQIATASGPCGNNRDYLFRLEKALFDIGHEEDMVIELANEVRN 193
           K+ NKYYLGPAPLE+MA QIATASGPCGNNR+YLF+LEKA+FDI HEE+ VIELANEVR 
Sbjct: 121 KVSNKYYLGPAPLEEMARQIATASGPCGNNREYLFKLEKAMFDIEHEEEYVIELANEVRK 180

Query: 194 VL 196
            L
Sbjct: 181 QL 182

[Close]
BLAST of CmaCh05G006160 vs. TAIR 10
Match: AT4G31290.1 (ChaC-like family protein )

HSP 1 Score: 318.9 bits (816), Expect = 6.5e-87
Identity = 144/190 (75.79%), Postives = 166/190 (87.37%), Query Frame = 0 

Query: 14  MVLWVFGYGSLVWNPGFDFDEKMMGFIRDYRRVFDLACIDHRGTPENPARTLTLEPKEGS 73
           MV+WVFGYGSLVWNPGF +DEK++GFI+ Y+RVFDLACIDHRGTPE+PART TLE  E +
Sbjct: 1   MVMWVFGYGSLVWNPGFHYDEKVLGFIKGYKRVFDLACIDHRGTPEHPARTCTLEKAEEA 60

Query: 74  ICWGAAYCIRGGPEKEKEAMEYLERRECEYDQKTIVDFYKDEGSMEPTLTGVLVFTSTPD 133
           ICWG A+C+RGGPEKE+ AMEYLERRECEYD KT VDFYK++  ++P +TGV+VFTSTPD
Sbjct: 61  ICWGTAFCVRGGPEKERLAMEYLERRECEYDLKTSVDFYKEDDPLKPAVTGVIVFTSTPD 120

Query: 134 KLLNKYYLGPAPLEQMASQIATASGPCGNNRDYLFRLEKALFDIGHEEDMVIELANEVRN 193
           K+ NKYYLGPAPLE MA QIATA+GPCGNNRDYLF LEKA+ DIGHEED VIELANEVR 
Sbjct: 121 KVSNKYYLGPAPLEDMARQIATANGPCGNNRDYLFLLEKAMHDIGHEEDYVIELANEVRK 180

Query: 194 VLGKVGKKKL 204
           VL +   KK+
Sbjct: 181 VLAESSTKKV 190

The following BLAST results are available for this feature:
BLAST of CmaCh05G006160 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8LD278.5e-11687.12Proteasome subunit beta type-6 OS=Arabidopsis thaliana OX=3702 GN=PBA1 PE=1 SV=2[more]
P933951.7e-11185.65Proteasome subunit beta type-6 OS=Nicotiana tabacum OX=4097 PE=2 SV=1[more]
Q8GY543.2e-8678.57Gamma-glutamylcyclotransferase 2-1 OS=Arabidopsis thaliana OX=3702 GN=GGCT2;1 PE... [more]
Q84MC19.2e-8675.79Gamma-glutamylcyclotransferase 2-2 OS=Arabidopsis thaliana OX=3702 GN=GGCT2;2 PE... [more]
Q55GJ61.5e-5952.74Proteasome subunit beta type-6 OS=Dictyostelium discoideum OX=44689 GN=psmB6 PE=... [more]
BLAST of CmaCh05G006160 vs. TAIR 10
Match NameE-valueIdentityDescription
AT4G31300.16.1e-11787.12N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein [more]
AT4G31300.36.1e-11787.12N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein [more]
AT4G31300.21.5e-11586.75N-terminal nucleophile aminohydrolases (Ntn hydrolases) superfamily protein [more]
AT5G26220.12.2e-8778.57ChaC-like family protein [more]
AT4G31290.16.5e-8775.79ChaC-like family protein [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000243Peptidase T1A, proteasome beta-subunitPRINTSPR00141PROTEASOMEcoord: 367..378
score: 66.29
coord: 403..414
score: 58.33
coord: 246..261
score: 58.81
coord: 378..389
score: 44.7
IPR006840Glutathione-specific gamma-glutamylcyclotransferasePFAMPF04752ChaCcoord: 16..192
e-value: 5.7E-46
score: 156.8
NoneNo IPR availableGENE3D3.10.490.10coord: 15..187
e-value: 5.9E-8
score: 34.4
NoneNo IPR availablePANTHERPTHR11599PROTEASOME SUBUNIT ALPHA/BETAcoord: 231..457
NoneNo IPR availablePANTHERPTHR11599:SF151PROTEASOME SUBUNIT BETAcoord: 231..457
NoneNo IPR availableCDDcd03762proteasome_beta_type_6coord: 239..426
e-value: 1.18583E-120
score: 348.06
IPR001353Proteasome, subunit alpha/betaPFAMPF00227Proteasomecoord: 237..417
e-value: 3.5E-46
score: 157.1
IPR029055Nucleophile aminohydrolases, N-terminalGENE3D3.60.20.10Glutamine Phosphoribosylpyrophosphate, subunit 1, domain 1coord: 239..438
e-value: 7.2E-63
score: 213.7
IPR029055Nucleophile aminohydrolases, N-terminalSUPERFAMILY56235N-terminal nucleophile aminohydrolases (Ntn hydrolases)coord: 226..436
IPR016050Proteasome beta-type subunit, conserved sitePROSITEPS00854PROTEASOME_BETA_1coord: 242..289
IPR023333Proteasome B-type subunitPROSITEPS51476PROTEASOME_BETA_2coord: 238..417
score: 48.773964
IPR013024Gamma-glutamyl cyclotransferase-likeCDDcd06661GGCT_likecoord: 18..123
e-value: 3.10548E-7
score: 46.569
IPR036568Gamma-glutamyl cyclotransferase-like superfamilySUPERFAMILY110857Gamma-glutamyl cyclotransferase-likecoord: 14..112

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
CmaCh05G006160.1CmaCh05G006160.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006751 glutathione catabolic process
biological_process GO:0010498 proteasomal protein catabolic process
biological_process GO:0051603 proteolysis involved in cellular protein catabolic process
cellular_component GO:0005737 cytoplasm
cellular_component GO:0005634 nucleus
cellular_component GO:0019774 proteasome core complex, beta-subunit complex
cellular_component GO:0005839 proteasome core complex
molecular_function GO:0003839 gamma-glutamylcyclotransferase activity
molecular_function GO:0004298 threonine-type endopeptidase activity
molecular_function GO:0016740 transferase activity