Cp4.1LG16g00030.1 (mRNA) Cucurbita pepo (Zucchini)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AATTGTAAAACCAAAGGGTGCACTCGTAAAGAAGAATTCTTCGTGCGCAAGAAATCAGTCTTTCTCCTTCAATTAGGGTTCAACTTTGCAGTGACGAGGGTTCGCTGTGTAATTCACGGTTCTCTCTAATCCGTCTCTAACAGTGTTCAAACTAGAAGATCAATTGGTTAATTTTCCAAATCCACTTCAAGAAATGGTACTTTTTCGTAGTTGCACTTGTAAATTCATTTCAGATCTGAATCTTTCGGTGTTCTTGTTGCCATGACTTTCGATTATGATACGCATTCGATGTTGGTTCTTGTGGAATTTCAGGAGGGTGAACGCAATTTAGAGGCAACCATAGAGCAACTGCTCAATGTCGAGAAGCAGATGCGGCTCGCCGGAGATGTGGCCGGCACCAAGAAGGCAGCCACTGACATTTTACAGCTCTGCTTTGAAGCGAAAGCATGGAGTACTCTCAATGACCAGATTGTGCTCTTATCCAAACGCCGTGGACAACTCAAACAGGTTTGCGAAAAAAGAAACTGCGTCTTTTTTACTTACCACTTTTAACCATTTCGCGTGAGAGGAGATGTGTTGCCTTTTAGGTCCTGGTGTTGCAGCTTCCATCGTCTTCATCTTTCATTTCCGATTGAACTATTTTGCACATATGTTTCTTGTTTATCTCCATTGTTTTTGTTCAAGCATCGTTCTAAGCATTAGTTAAGTTGTGCATTGAATTCCACCGAAGAGACCTCCCAGTCAGATACTCTTTATTCTTTGAGATTTGAACTTCCTACATCTGGCTTACTAATTTTTCATTTAGGCTGTTACTGCAATGGTTCAACAAGCAATGCAATACATTGATGAAACACCAGACATTGAGACCAAAATACAGCTTATCAAGACGCTTAACAATGTGTCGGCAGGAAAGGTAAATTTGTTGTTTTAGCTTCAAAATTTTCTTGAACGAGGCAATACTCTTCCTTCAGCCGTGCCTAGTTTAGAATTTTAGATTTCAGTTTATTGGTTTGTAGATATACGTGGAAATTGAGAGAGCCCGGTTAATCAAGAAATTAGCAAAGATCAAAGAAGAACAGGGGCTTATTGCAGAAGCTGCTGACTTGATGCAAGAAGTTGCTGTATGTGTTATATAGTTTGATGACTACCAGAATGTTTTCATTTCTTTCTTCCAATTTTTGGTTGTTTATGTTTCTGATGAGTAAGATCACAGGTGGAAACCTTTGGTGCCATGGCTAAAACTGAGAAAATTGCATTCATTCTTGAACAAGTATGCTCCTTTTTTGTTGGTTTTAGGTTATTCTTGCACTCATCTGTGTCTAGAATTCTTTGTTTTGAATGTTGGTACAAATATTTATTTATTTTTGACAAGACTATATGTTGAAACTTAATTACAGGTTCGTCTATGTTTAGACCGTCAGGATTATGTTCGTGCTCAGATCCTATCAAGGAAAATTAGTCCAAGAGTTTTTGATTCTGATCCTACAAAGGAGAAGAAAAAACCTAAGGAAGGTGATAATATTGTTGAGGAGGCTCCAGCTGATATCCCATCGTTAATGGAGTTGAAGCGCTTTTACTATGAATTGATGATAAGGTAAATGGTAACTTACATTCTGATGTGTAGGTTCGCTTAAATTTTTTCTAATAGCTTTTTAGAATTAAAGAATGGTATACTTTCCATAGTGGATTTCAGGAGAGTCTGCTGTGAGAGTATTTCTTTGAATTTGTTTTATGTTTGTTCAGTGCACTATTTTGCAATGTCCCATCCTAATTGACATTTCAACTTCAAGCAACTACAACTATGTAAAGTTTTGTTGATAAATTTTTTTAGTTCTACCATTGCGTGGGTGGGGGATCGATTGAACCTTCGATATTTGAAATGGTAGCTGATACCTTATCCATTGGCTATTCTCGTATTTGACATATTTTGTTCATAATTTATGAAGACAATTTCAGAACTCCTGAGCAAACCTTAGAACTCTGTTGCTTCAATTGAGACGTACCTTGGGTAGATATACAGAGGCTTGACCTCTTGGGCTCCTTCTTAGTCCTAGTCCTACACAAGGGCCTTGTCCTCCTTGAGCCTTTTAGATATCCTTCTTCTTGTATTTTTTTGTTCAATAATTGCGGAGTGGAGGATGAAACCCTCAATCGTTTGAGTGGTAATTGATGGCTTATCCATTGAGTTATGTTTGAATTGACAATGTCTTCCTCGTTTGAGGATCTAGAATGTGATATCTAATAATGGAATACAGTCCTTGTTTGAGGATCTAGAATGTGGTATCTAATACTGGAATACAGAACAATTAATAATTCTAATGTGTAGGTTTATTTAAATTTTTTTGGTTGTAGGCTATTATTTTAAAATAGGAGTTTTATTTATTTATTATTATTATTATTTTTTTATTGCCATACAAAGGGAAGCTTTTAAACAAATTAATAAAATTTTCTTTTGGATAAGTCCTCTTCTTCTTTGGCTTTCCATAAAAAAGTGAAATTGGCTGATTTTCCTGGGGTTAATGGGTTATGTGAATTCAATAGATGTAGTTCGAGGAGGGCTACCTTCAAGTTGCAAGTACAGGGCTTATTTTTTATTTTAGAAGAGAGTAGAGGGAGGAGGGCTTGAATTAGTAAGATTATTTGTTGGTTTCGACTTTCAAATGTCAGGCAGCTGCTTTATTTTGGTAAGTGATGACTTATTCTTCCTACTCCTGGAAGAGAAAGATGCTTTGCAAATCTAGGGTGGATGCCTTGTTTTGAGGCATTTGGTTTGATGATAACAAGAGAAATTTTGAGGACAAAGTTTTGAGAGGTTTGAGGATTTATTTAGAGTAATGTTTTAACTCCAGGGTTCTCTCTATTTTCCTTCATCCTTGATCATCAATCATTGGGACACAACTGGAATTTAGTAATTTCTTATTTTGACTTTTGTTATTTAGGCTTGATTCTTGTTATGCTTTTTGCAATTCCCTTTAACTCTTACATGGATGATTCCCTCACTAATAAATTCTTAACGAAGGTTATTTTCCTTCAAAAAATAGACCACAATAGTTCATACGTGAACAAAGAATGACCGCTCTAATTTGTTTATAAAAATGTCAACTACCTACATGGTTCTATTTTTGTTAATATGAGCTAATTTCTGATCAAATAGGCGGTTACTGTTTTCCCCTTCTTCTTGTTATGGTCGTTGTTGATGTTTTCTTTCTTTCTTTCTTATGTACCTTTTTTTAAAAAAAATATTTTTAATGGATTGAAGATTCTAGCATGTCCATAACCTCATGCTTAAAATGCTTTATGAAATTCTTCTATTTTCATATTTTTATTTCTATTCTTAAAGAAGTTATAAACAAGCATATTACTTAGGTCGTTTATTTTCACAATCCATCATTTCCAACTCTGTATTACCTTTTGAATTTAAGTCAGATGATGTGCTGTCTCACAAGAGTATTGATACTTTTTACACTTTCTTTTTCTGTTAGGTTTGAACTCCCGCCCATTTCACAGAAATTTCCTCATGAGATTTACCATGTATCTTCTATTAAAAATAATTTTGCTGCTTATTTTTTGATGCATTCAGGCAGTGCTTCCTCTCTTTCGTTTGGGTTCCATTGTCCATTTAGTCCAATAGAAAAACAACGGAGGTTATGACTCTCCTTTCTTTATTGGGAGATGTTGAGCTTAAACATGGGAGAAGGCATATTCATTTTTTAGACCTAGCTTTTTTTATAGATCATTCTGGACCTTTACCCTTTTAGGGGGAGTCTGTTTTATAGATTCTCTGGAAGGTGAAAATCTAGAAAAAAAATGGAGTTCTTTATTTGGTGGGTTATTCATGGAAGAATCAATAAATTGGATAGGCTCTTGAAGAAGTTGCCGTCTTTGGTTGGGTTCTTTGGTTGGGTTCTTTTTCTGTATCCTTCGTCATAGGGCCGGGCAACATTTGGATAACTTATTTTGGAGTTGATTATGCTCTTTGGGTTTTGAACTTCTTGTTTAGAGTATTTGGAGATATGATTTTGGAGATTCCTCTATTTGTCGTTCATGGGGAAATGAAGTTTTTTATAGTTGGAAGTGGGCTTTTTTATGGGGTATTTAGGGGGAGAGAAATAATAGAATCTCTAGAGGGATTGAGTGAATCGTTTGATGTATGGTCCCTTGTGAGATTTAATGTTTCTCTTTGGGTGTTGGTGACAAGTTCCTTTTGTAATTATTCGCCAGGTCTCATTTTACTAGATTTGGGGCTTTTTCTCTTGAGTGCTCCCTTCTGTGGATTTCGTTTTTTCATATGCCTCTATATTCTTTCATTTTCTCTCAATAAAAGTTAAATCTCTTAAAAAAGCTGCAAAGAGATGAGTTTTAACCAACTACAACATGCTATGTAATAATTTTCAACTATTGACAAAATTCTAACAAATTGATCTAGAAGTTCCTTTTCCTTTTTTCTTTTCGTGAGAAGGGAAATTTTTTGTGGCAAGTGGGGTTTTGTACTGTGTTAGGAAGATTGTGGGGGAGAGGAACAATAAAACCTTTGGAGGGTTCGAAAGGGACCCTAGAGATGTTTGGTCTCTTGTTAGGTTTCGTCTCTCTTTGGGCTTCGGAGACGAAGGCTTTTTGTAATTATTCTCATGGACTCATTTTACTTGATTGGAGATTCTTCATTTAGTGAGCTTTTTTTTGTTGACCGTTTTATTTTTTGGAATGTTTTGGTATTTTTTCATTCTTCTTAATGAAAATCCAGTTCTTTATAAAAAAAAAAGGGAAAGAAAAATAGTAACTGATTGATTTCTTCCCAAGCAAAAATTCTGAAGACTTAGTTTCTTTGATCTGAGAATAAGTTGGAAAGCCTTCAATCAAAGTTTATATTCAAAGAGAGACTAAGATGACTATTATTTATTCGAAACTGTAAGCACTCAATTACTCATAAAATTCATATTTTTCTTCTATTGGTTTTATAAGACTTTTAGTTAGAGTTATAGTGAGATACTTGTAGGGGCCAAGAGGTCTTGAGATGATTTCTTTTTCCTTGCTAGGTTTAATCCATCTCTTTGGTTGTCATTCTCTAAGAATATTTGTTATTAGGTTTTATTCTTCTAAATTGGAGCTCTTTTTCGTATGGACAGTTCAAATAATGGTTTGGCTCCTTTTGAGTTGTCTCTATGTATACCCTTTTTTATTCTTTCATTTTTCACAATGAAACTCAATGTTCCTTGAAAACAAAAAATTAACTTTTGAGTTATCCCACAATTTCATTTATTTGAAATTTTGTGCAAACAATGTCGTTTATTCTTTTTCCTAGAACAAAGAAGGGACGGTGGATTTTTACTAGGTGGAATGAGAGGCATTTTCTGTTGAATGTAAAGCATTCAATCATTTCCATCAATACATTAGTAGTTTAGCTTTGCCCTCTTCATGACTGAATTTAAGCCAAGTATGCATGAATGATAAGAAATTGAGCCGTAGTTGAGAAAAAAATGAAAGAATGTACAAAAATATAAAAAAGACCACAAAAAAGTCTCAATATAATGCTTGAATATTTTTGAAAACATGCAGGAGTAGAGGGGAATGTCTTAGACATTGACTACTAAGGTTATGCATACTTGCTTTTCTTTTGCAATGAAATCTTTTTACAGGTTTGTTCATCAATCATTGCAGGTATTATTCTCATCACAAGGATTACCTTGAAATTTGTCGCTGCTACAAATCGATATATGATATTCCGTCTGTCAAGGAAAGCTCGGCTCACTGGATACCTGTAAAGCTCTTCCCAATTTAGATTGTCCCCAGTTTTTGTTGTGCTTGTCTAATTTTATCACTGTAGGTCCTGAGGAAAATCTGTTGGTACCTAGTTCTGTCACCACACGATCCCATGCAGTCGAGCCTTCTTAATTCCATCTTGGAAGATAAGAATCTTTCAGAGATCCCAAATTTCAGGCATGTCTTTTTTTTGGTGCTTATTTCCATTGACTAGGATGTTATTGTTTAAATTTCATGTCTTGTGAATAGAAACTCAGTCTGATACTCTTTTTCGTCATTTTGTCATAGATTGTTGTTGAAACAGCTAGTTACTATGGAGGTCATCCAATGGACAGCTTTATGGAATGATTATAAGGATGAGTTTGAGAATGAGAAGAATTTGTTAGGAGGTTCTTTGGTTGAGAAGGCTGCAGAAGATCTTAAACAAAGGATAATCGAGCATGTATTATATATTCCGTTCGCTATATCTCTTTACTTCATTTGGCTACTTACATATTGTCATTGTGATTCAACGTGTTTTTTGTTCTTTTATTTAGAATATTCTTGTCGTGTCGAAGTATTACTCGAGGATTACATTGAAGAGACTTGCAGAGCTGCTGTGTCTCAACCTCCAGGTTTGTAGATATGCTACAAATTGTTAAATTCTCCTCTAGTTTTGATCGCCTTGATCTGTTTTGTTAATATCGTGCATTTTCTTTTTAATCAGGAAGCAGAGAAGCATCTTTCCGAAATGGTTGTTTCGAAGGCTTTAGTGGCGAAGATCGATAGGCCAATGGGCATTGTCAGCTTCCAGACATCGAAGGACAGCAACGAAATTCTCAATTCTTGGGCATTGAACTTGGAGAAACTGCTTGATCTTGTTGAAAAGAGTTGTCACCAAATACACAAGGAGACCATGGTTCGTAAAGCTTCTCTAGAAGTTTGAGAAGGATGATTACGAGCCACGTGTCATTGGTATATTGTTCGCTCTCTCATATTTTTACACCCGACACGAAAAATCAAATGGAGGGTTGAAAGTACATTGTACGAAGAAACAATTTAGTCTATGAATGTTAGTATTAAATGATTTAGTTTTTTTGTAGTTTTAAGTTTGTACAATTTAGTCATTGAACTTTAACGTGAAGTTTAAAATTTGTAACGGTTTAATCTTTGCTGAAAATTTCATAGATATATAATATGAATTTGATGCGGTAGCCTCTGAATCTCACCAACAGGTCTGTTTTTTTTTTATTCTACTGTAACACAACCTTTATTATTATACACCTAGAATTCAAGTAGCTACCTCGTTGAACCCTCGTTATATCTTGACGATATAGTTACATACTTTAAAGTTAGTTTAAGGATTAAATTAGGTGGAAGAGTTAAAGGGCCAAATGTGCTATTTTAACCGAACTAAATCAGGTACTTTTCCACGATGTTTTATCTTTATAAATGTTTGGTGCAGGTCAGGTCACCCAGAATTGGGCATGATTGGCTGTTCGGCCTATAACAGAGATCTATCAAGAATTTGGTAAGGATCAGAACTTTGATGT AATTGTAAAACCAAAGGGTGCACTCGTAAAGAAGAATTCTTCGTGCGCAAGAAATCAGTCTTTCTCCTTCAATTAGGGTTCAACTTTGCAGTGACGAGGGTTCGCTGTGTAATTCACGGTTCTCTCTAATCCGTCTCTAACAGTGTTCAAACTAGAAGATCAATTGGTTAATTTTCCAAATCCACTTCAAGAAATGGAGGGTGAACGCAATTTAGAGGCAACCATAGAGCAACTGCTCAATGTCGAGAAGCAGATGCGGCTCGCCGGAGATGTGGCCGGCACCAAGAAGGCAGCCACTGACATTTTACAGCTCTGCTTTGAAGCGAAAGCATGGAGTACTCTCAATGACCAGATTGTGCTCTTATCCAAACGCCGTGGACAACTCAAACAGGCTGTTACTGCAATGGTTCAACAAGCAATGCAATACATTGATGAAACACCAGACATTGAGACCAAAATACAGCTTATCAAGACGCTTAACAATGTGTCGGCAGGAAAGATATACGTGGAAATTGAGAGAGCCCGGTTAATCAAGAAATTAGCAAAGATCAAAGAAGAACAGGGGCTTATTGCAGAAGCTGCTGACTTGATGCAAGAAGTTGCTGTGGAAACCTTTGGTGCCATGGCTAAAACTGAGAAAATTGCATTCATTCTTGAACAAGTTCGTCTATGTTTAGACCGTCAGGATTATGTTCGTGCTCAGATCCTATCAAGGAAAATTAGTCCAAGAGTTTTTGATTCTGATCCTACAAAGGAGAAGAAAAAACCTAAGGAAGGTGATAATATTGTTGAGGAGGCTCCAGCTGATATCCCATCGTTAATGGAGTTGAAGCGCTTTTACTATGAATTGATGATAAGGTATTATTCTCATCACAAGGATTACCTTGAAATTTGTCGCTGCTACAAATCGATATATGATATTCCGTCTGTCAAGGAAAGCTCGGCTCACTGGATACCTGTCCTGAGGAAAATCTGTTGGTACCTAGTTCTGTCACCACACGATCCCATGCAGTCGAGCCTTCTTAATTCCATCTTGGAAGATAAGAATCTTTCAGAGATCCCAAATTTCAGATTGTTGTTGAAACAGCTAGTTACTATGGAGGTCATCCAATGGACAGCTTTATGGAATGATTATAAGGATGAGTTTGAGAATGAGAAGAATTTGTTAGGAGGTTCTTTGGTTGAGAAGGCTGCAGAAGATCTTAAACAAAGGATAATCGAGCATAATATTCTTGTCGTGTCGAAGTATTACTCGAGGATTACATTGAAGAGACTTGCAGAGCTGCTGTGTCTCAACCTCCAGGAAGCAGAGAAGCATCTTTCCGAAATGGTTGTTTCGAAGGCTTTAGTGGCGAAGATCGATAGGCCAATGGGCATTGTCAGCTTCCAGACATCGAAGGACAGCAACGAAATTCTCAATTCTTGGGCATTGAACTTGGAGAAACTGCTTGATCTTGTTGAAAAGAGTTGTCACCAAATACACAAGGAGACCATGGTTCGTAAAGCTTCTCTAGAAGTTTGAGAAGGATGATTACGAGCCACGTGTCATTGGTCAGGTCACCCAGAATTGGGCATGATTGGCTGTTCGGCCTATAACAGAGATCTATCAAGAATTTGGTAAGGATCAGAACTTTGATGT ATGGAGGGTGAACGCAATTTAGAGGCAACCATAGAGCAACTGCTCAATGTCGAGAAGCAGATGCGGCTCGCCGGAGATGTGGCCGGCACCAAGAAGGCAGCCACTGACATTTTACAGCTCTGCTTTGAAGCGAAAGCATGGAGTACTCTCAATGACCAGATTGTGCTCTTATCCAAACGCCGTGGACAACTCAAACAGGCTGTTACTGCAATGGTTCAACAAGCAATGCAATACATTGATGAAACACCAGACATTGAGACCAAAATACAGCTTATCAAGACGCTTAACAATGTGTCGGCAGGAAAGATATACGTGGAAATTGAGAGAGCCCGGTTAATCAAGAAATTAGCAAAGATCAAAGAAGAACAGGGGCTTATTGCAGAAGCTGCTGACTTGATGCAAGAAGTTGCTGTGGAAACCTTTGGTGCCATGGCTAAAACTGAGAAAATTGCATTCATTCTTGAACAAGTTCGTCTATGTTTAGACCGTCAGGATTATGTTCGTGCTCAGATCCTATCAAGGAAAATTAGTCCAAGAGTTTTTGATTCTGATCCTACAAAGGAGAAGAAAAAACCTAAGGAAGGTGATAATATTGTTGAGGAGGCTCCAGCTGATATCCCATCGTTAATGGAGTTGAAGCGCTTTTACTATGAATTGATGATAAGGTATTATTCTCATCACAAGGATTACCTTGAAATTTGTCGCTGCTACAAATCGATATATGATATTCCGTCTGTCAAGGAAAGCTCGGCTCACTGGATACCTGTCCTGAGGAAAATCTGTTGGTACCTAGTTCTGTCACCACACGATCCCATGCAGTCGAGCCTTCTTAATTCCATCTTGGAAGATAAGAATCTTTCAGAGATCCCAAATTTCAGATTGTTGTTGAAACAGCTAGTTACTATGGAGGTCATCCAATGGACAGCTTTATGGAATGATTATAAGGATGAGTTTGAGAATGAGAAGAATTTGTTAGGAGGTTCTTTGGTTGAGAAGGCTGCAGAAGATCTTAAACAAAGGATAATCGAGCATAATATTCTTGTCGTGTCGAAGTATTACTCGAGGATTACATTGAAGAGACTTGCAGAGCTGCTGTGTCTCAACCTCCAGGAAGCAGAGAAGCATCTTTCCGAAATGGTTGTTTCGAAGGCTTTAGTGGCGAAGATCGATAGGCCAATGGGCATTGTCAGCTTCCAGACATCGAAGGACAGCAACGAAATTCTCAATTCTTGGGCATTGAACTTGGAGAAACTGCTTGATCTTGTTGAAAAGAGTTGTCACCAAATACACAAGGAGACCATGGTTCGTAAAGCTTCTCTAGAAGTTTGA MEGERNLEATIEQLLNVEKQMRLAGDVAGTKKAATDILQLCFEAKAWSTLNDQIVLLSKRRGQLKQAVTAMVQQAMQYIDETPDIETKIQLIKTLNNVSAGKIYVEIERARLIKKLAKIKEEQGLIAEAADLMQEVAVETFGAMAKTEKIAFILEQVRLCLDRQDYVRAQILSRKISPRVFDSDPTKEKKKPKEGDNIVEEAPADIPSLMELKRFYYELMIRYYSHHKDYLEICRCYKSIYDIPSVKESSAHWIPVLRKICWYLVLSPHDPMQSSLLNSILEDKNLSEIPNFRLLLKQLVTMEVIQWTALWNDYKDEFENEKNLLGGSLVEKAAEDLKQRIIEHNILVVSKYYSRITLKRLAELLCLNLQEAEKHLSEMVVSKALVAKIDRPMGIVSFQTSKDSNEILNSWALNLEKLLDLVEKSCHQIHKETMVRKASLEV
BLAST of Cp4.1LG16g00030.1 vs. Swiss-Prot
Match: PS12A_ARATH (26S proteasome non-ATPase regulatory subunit 12 homolog A OS=Arabidopsis thaliana GN=RPN5A PE=1 SV=1) HSP 1 Score: 711.1 bits (1834), Expect = 7.7e-204 Identity = 362/434 (83.41%), Postives = 406/434 (93.55%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. Swiss-Prot
Match: PS12B_ARATH (26S proteasome non-ATPase regulatory subunit 12 homolog B OS=Arabidopsis thaliana GN=RPN5B PE=1 SV=1) HSP 1 Score: 700.7 bits (1807), Expect = 1.0e-200 Identity = 357/440 (81.14%), Postives = 402/440 (91.36%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. Swiss-Prot
Match: PSD12_HUMAN (26S proteasome non-ATPase regulatory subunit 12 OS=Homo sapiens GN=PSMD12 PE=1 SV=3) HSP 1 Score: 360.1 bits (923), Expect = 3.3e-98 Identity = 197/439 (44.87%), Postives = 279/439 (63.55%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. Swiss-Prot
Match: PSD12_PONAB (26S proteasome non-ATPase regulatory subunit 12 OS=Pongo abelii GN=PSMD12 PE=2 SV=3) HSP 1 Score: 360.1 bits (923), Expect = 3.3e-98 Identity = 197/439 (44.87%), Postives = 279/439 (63.55%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. Swiss-Prot
Match: PSD12_MOUSE (26S proteasome non-ATPase regulatory subunit 12 OS=Mus musculus GN=Psmd12 PE=1 SV=4) HSP 1 Score: 358.6 bits (919), Expect = 9.7e-98 Identity = 194/439 (44.19%), Postives = 276/439 (62.87%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TrEMBL
Match: A0A0A0LM50_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G298260 PE=4 SV=1) HSP 1 Score: 821.2 bits (2120), Expect = 5.9e-235 Identity = 425/442 (96.15%), Postives = 434/442 (98.19%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TrEMBL
Match: W9RCH0_9ROSA (26S proteasome non-ATPase regulatory subunit 12 OS=Morus notabilis GN=L484_006712 PE=4 SV=1) HSP 1 Score: 764.6 bits (1973), Expect = 6.6e-218 Identity = 388/441 (87.98%), Postives = 424/441 (96.15%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TrEMBL
Match: A0A067KTY5_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_09453 PE=4 SV=1) HSP 1 Score: 762.7 bits (1968), Expect = 2.5e-217 Identity = 390/442 (88.24%), Postives = 420/442 (95.02%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TrEMBL
Match: A9PH46_POPTR (Putative uncharacterized protein OS=Populus trichocarpa PE=2 SV=1) HSP 1 Score: 758.8 bits (1958), Expect = 3.6e-216 Identity = 389/442 (88.01%), Postives = 420/442 (95.02%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TrEMBL
Match: B9HG65_POPTR (26S proteasome regulatory subunit family protein OS=Populus trichocarpa GN=POPTR_0007s07080g PE=4 SV=1) HSP 1 Score: 758.8 bits (1958), Expect = 3.6e-216 Identity = 389/442 (88.01%), Postives = 420/442 (95.02%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TAIR10
Match: AT5G64760.1 (AT5G64760.1 regulatory particle non-ATPase subunit 5B) HSP 1 Score: 700.7 bits (1807), Expect = 5.9e-202 Identity = 357/440 (81.14%), Postives = 402/440 (91.36%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TAIR10
Match: AT5G09900.3 (AT5G09900.3 26S proteasome regulatory subunit, putative (RPN5)) HSP 1 Score: 551.6 bits (1420), Expect = 4.4e-157 Identity = 278/338 (82.25%), Postives = 315/338 (93.20%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. TAIR10
Match: AT5G42970.1 (AT5G42970.1 Proteasome component (PCI) domain protein) HSP 1 Score: 53.5 bits (127), Expect = 3.8e-07 Identity = 69/319 (21.63%), Postives = 141/319 (44.20%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. NCBI nr
Match: gi|659116130|ref|XP_008457919.1| (PREDICTED: 26S proteasome non-ATPase regulatory subunit 12 homolog A [Cucumis melo]) HSP 1 Score: 826.6 bits (2134), Expect = 2.0e-236 Identity = 428/442 (96.83%), Postives = 437/442 (98.87%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. NCBI nr
Match: gi|449461455|ref|XP_004148457.1| (PREDICTED: 26S proteasome non-ATPase regulatory subunit 12 homolog A [Cucumis sativus]) HSP 1 Score: 821.2 bits (2120), Expect = 8.5e-235 Identity = 425/442 (96.15%), Postives = 434/442 (98.19%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. NCBI nr
Match: gi|1009146692|ref|XP_015891007.1| (PREDICTED: 26S proteasome non-ATPase regulatory subunit 12 homolog A [Ziziphus jujuba]) HSP 1 Score: 767.3 bits (1980), Expect = 1.5e-218 Identity = 389/442 (88.01%), Postives = 423/442 (95.70%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. NCBI nr
Match: gi|743837763|ref|XP_011025554.1| (PREDICTED: 26S proteasome non-ATPase regulatory subunit 12 homolog A [Populus euphratica]) HSP 1 Score: 765.0 bits (1974), Expect = 7.2e-218 Identity = 391/442 (88.46%), Postives = 421/442 (95.25%), Query Frame = 1
BLAST of Cp4.1LG16g00030.1 vs. NCBI nr
Match: gi|703098737|ref|XP_010096465.1| (26S proteasome non-ATPase regulatory subunit 12 [Morus notabilis]) HSP 1 Score: 764.6 bits (1973), Expect = 9.4e-218 Identity = 388/441 (87.98%), Postives = 424/441 (96.15%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following five_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Analysis Name: InterPro Annotations of Cucurbita pepo
Date Performed: 2017-12-02
|