Bhi12G001157 (gene) Wax gourd

Overview
NameBhi12G001157
Typegene
OrganismBenincasa hispida (Wax gourd)
DescriptionSignal peptidase complex subunit
Locationchr12 : 41440865 .. 41448378 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTCCCCTGTTTTATTTGTTCACGCAAACCGAGAGCACCCTCCTCTTTCTGTTTTCTTCTTCAGTCGCGCCACATCAAGCCCTAGCCACCGCCAACCTGGTCAGTGACCAGACTCCTCCGTCGAAGCCTCCGACCAGCGCCGTCCTCCAGCCCTAGCCGGATCTTAGCTGCATAGCTCCAAGCCGCACAATCGTGCCACGATAGATCTAAAGCCGTCTCGCCCAGATCTCGTCGCTCTGACCCGAGCTCTGTCTGTCAGCACTCTTCAGCGTGCCGCCAGTCAGACGCGAAGCCAGCCTTGTCCGTCGTTGCCCGAAGCTGCCGCGTCGTTTCTTCCTCATGCCTGTCGTCCAGCCGCCGGACCCCCCTCACTTCTCCCTCACGCGAGACCCCTCCGTTTTCTGCTTCCTCGTCGCCTCTCTACTATCTTATCGCCGCCGGTCAGACACGTCGCCAGTCGCCCAGCTCTCCAGACTGCTGCTGCCCAAGCCCAAGCTGGTCTCCACCGCCGTTCGCCGTGTAAGCTTCTGCTGAGTCGACTCTCTTCGCTGCTCTCAACCTGCCCAGATTCAAGCCGTCGACGTCCTCCTCCGCCCAGATTCGAGCCGCCGACGTCCTCTACCACTAGATCCGAGCCGAGTCTCTCCTCCGCCGCCCACCGCGTCGCTACCGGCTGCTTCCAGCGCCGCCAGCCTTGTTCGTCGCCAGGACCCACTTACACCACTAGACTTGTGCTTTGAATCCAAGATTGGAGTACTTCGGAGTGCGCAGCGTGCTGTTTAGCGGATTCGAGTTCGTTCGGCAAGTATTTTTATTTCTCGAAGGTTCCAAGTCGTCATCCTTTGGGTTCTAAAATCTGCTAAGAGGAAATTTTGAGTCGAAATCTCGCGAGTGTTGGTTGATCAAGTTTCGTTGGGGGACTTAGTTCAGGGGTTTTTGTAGCTTGGATTAAAAATCGGAATTTGATTTCGAGGACACGACACCTAAACATAAAACAAGGAAAACAGTTAGAGAAGAAATACAAGCAGAGAGAGAGGGGAGTAATCAAACTGCTCCGGCGGCACCAATTCCACCTATGACCCAAGTGGATGAAAAGGAAATGGAAGCCCAAATTAGTGAAGCTGTTGCAATCGCTCTGGTGGGGAAGCTGCAGGAACTGATCCGTAGCAAGATGGCAGGACAGCCTGCCCAGATTCAGGCTCAGGAGGAACCGGTGCCACCTGAGCCGTTACGACAAACCCTTCCGCAGGACAAGGTCACGTAGAGCCTGTCTCTCGAGGCCAAACATTTAAGGGATTTCCGGAAGTATGACCCTCGCCCCTTTGATGGATCGTTAGGAGACCTCACCAAGGCAGAGCTGTGGTTGTCATCCATTGAGACAATTTTTCGTTTTATGAGGTGCCCGGAAGAGCATAAACTGCAATGCGTAGTCTTCATGTTGACTGGTAACGTGGCAATCTGGTGGCGTTCGGCATAAAAGATGATCGATATTGGAGGTGACCTTGCAACCTGGGAACAGTTCAAGGAACGTTTTTATGAGAAGTACTTTTCGGCCAACACCCGATACAATAAGCAGGCAGAATTCTAGAACCTGAAGCAGGGCGTTATGTTAGTGGAGGAGTACGAGTAAGAATTTGATAAGTTGTCTCAGTTTACTCTTGAGCTAGTGACCACCGAGGCAGCGAGGATCGATAGATTTATCCAGGGCTTGAGGAGCGGGTTGCGAGGGATGGGGCATGCCTTGGATCTCAAGACATATGCCGTGGCACTACGAGCCGCTGTGAAGATTGATGCCGACTCCCAGGGGGGAGAGGAATACAGGAGGTCACTCGGGATTGGGACCTCCGCAGGGCAGAAAAGGAAGGCTGAGCACAAGACTCTTGAACATCAGTAGAGGGGTCAGAACACAGTGCATGCCGTCAGTAGGGACAACAGAGTACCCAAGCTAGGAATGGCAGGGAGGATAGACCGATATGCACCACTTGCGGTAAGCAACACTGGGGACGTTGTTTAGCTGGCTCTGGGAATTGTTTCCGATGTGGCCAGAAGGGTTATATGGCAGATAGATGCCCAAGGAAGAATGCGCCTAAGCACAGGAGCCAGCCCGTAGGATTGTTCTAGGGAGGCCCGAACCGCCAGCAACAGCAGGGAAAGGTATTTTCTACCACTCGACGTGAGGCCTAGAAGTCAGGCACCGTGGTGACAGTAAGCTCCAAAAGTCGATGGGTGATCTCGAAAAGCTTTATAGAGAAAAAAGTGGTGCAAATTTTGTTATTCCATCTTCTTCTCATGGTGGCTATGAGAAGGTCCTAAAAGGTTAGCTGTTTGTTGATCACTACATTGAGAAAACACAATTCAGCTTTCTTGATTACATTTCCAGTGGATTTCAGCTTAATTTATGGCCGCTGTAGATTTTACAGATTTCAAACAAATCTTCATAGACGGCGAATTTAACTGAAACCGAAAACTATCAAAAATGGCGATCAAAAATGTCAAAAAAGCCAATCTCTTGGATCATCACTCCCTCAAACACCTACTCGATGAATCTGTTTCTGAGATTGTCACCGGCTGTGGCTATGTTGAAGACGTGAGATTGAGTAATGTTAAATTGATTATGGGCACTTTCATCATCATCATAGCTTTGGTGGCTCAGTTTTACAAGAAGAAATTCCCTGAAAATTGCGATTTCTTGATCGGCTGCATTATATTATACCCTTTTTCTGAATTGCGTGTTCTTTTTCCCGTTTAGATCTTCCTAATAGATTGAGTTTCATTTCTTGATTGATATTGAATTAAATGGTGGATGTTTTGAAATGCAGAATCACGTTGTACTTTGAATCTTACGCCATTTTCTTAGATTATTAGGTTTTGATTTCGTTTAATGAAATGAAAATCATTGGATGGTGCCTCTCATGTGATCTTCAACTCTGGCAAATATGTAGTTTTTAATGGGATCTTGCAGTTTATTGTTTACACCAAGGAGAAGAACGCAATTTTTGCTAATAGGAATATATTGTCTCTTGAAGTCTCTTAGCTCATATGAAAACCACAAGCGACATTAGCTGTTTTTCCTTCAGATCTTAGCCGAATATATGCTCCTATAGCATAATGTTTGATTGAACTTGTTTCTTTTTCATTCTAGTGGTGAGCACGAACCCTTGGTAGAGATAGATTTGTTGTTAGCTTGTTTAAAATTTATTGAGGATTTGTTTGGAACAACTTTCTAAGTGAAAAAGGACGGTATATTTAAGCACTTAGAAACTCGTTTAAAACCGGCTCTAATCCATCCTATTAGACTTCTAGTTTCTTTTCGTCCTTTCAACAAATTCCACTGAAGCTTTTAATTTGTCACCTCTTGATTGCTTTCATGACTCTAGTGATATGAAAATTCCTGTTTGAGAAGTTATAGTGTACTTATTTCTTTTTGGACCATATTGGATTAGAATGTAACACCCGTTTACGACTCATGGGTACTATTCATTTGTAGTTTAGATTTGATTCAAGGTGCTCGAGTTTGTAGGTCGTACTATGGTAGTTTGTGGGTTATTCATGCACTATGGTAGTCTTTGTGACAACTTTTGAGGTTTGAAGTATATTGTGAGCTAAATTTGTTTATTGATTATGTGTTCTTGAATATTCATTTTTTGGGAATTCTGATAGTTTGTTGAGAACAATGGTTGTGAAATATTTTGGGAGTGTGTTTCTTTGAACAGGTTCAAGGTAAATTTTTGGTTTTGTTGTGGTAGCATCGTTATGCTGCCGAAAATTTTCCATCGTCTTCGTATCTCATATCTAGATACAACAAAGGAGTAAATATTTGGTATCGCAACCTCTTTATGCTTTTTCTTGGGGAACTTTAGATGCAACATATTCACTACAAGAATTTTGCCTTGAATGTACCATTTATGCACATTCCCAATAAACACGTGGTCAGACAAAGATGCCTATAACCAGACACTGCTGAAGCTAGGGGGTTGGTTCAAGAAGAATTATGAAGGGATCCATACTTACCAAGTGGAGAGAGACAGTAATCTCATAATGTTTGTAAATCATAATGTTTGTATTACTTGTAATTTGTGTTTTCAAGGCCTGAATTATTGTACAACCTTTTAAATTATAGTTTTTTAGAAAAATTTATGGATTAAATGTAATAGATTTACAATCCATACATGAATAATATGTCATAGTCACAACGTTCAATGATGATGTGTCATGTTATACTTTTTGACCAAAAAAATGGATTCGGC

Coding sequence (CDS)

ATGGCGATCAAAAATGTCAAAAAAGCCAATCTCTTGGATCATCACTCCCTCAAACACCTACTCGATGAATCTGTTTCTGAGATTGTCACCGGCTGTGGCTATGTTGAAGACGTGAGATTGAGTAATGTTAAATTGATTATGGGCACTTTCATCATCATCATAGCTTTGGTGGCTCAGTTTTACAAGAAGAAATTCCCTGAAAATTGCGATTTCTTGATCGGCTGCATTATATTATACCCTTTTTCTGAATTGCGTGTTCTTTTTCCCGTTTAG

Protein sequence

MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQFYKKKFPENCDFLIGCIILYPFSELRVLFPV
Homology
[Close]
BLAST of Bhi12G001157 vs. Swiss-Prot
Match: sp|P58684|SPCS2_ARATH (Probable signal peptidase complex subunit 2 OS=Arabidopsis thaliana OX=3702 GN=At2g39960 PE=2 SV=1)

HSP 1 Score: 128.6 bits (322), Expect = 3.4e-29
Identity = 62/76 (81.58%), Postives = 69/76 (90.79%), Query Frame = 0 

Query: 4  KNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQFYKK 63
          KNVKKANLLDHHS+KH+LDESVS+IVT  GY EDVRLSN+KLI+GT II++ALVAQFY K
Sbjct: 11 KNVKKANLLDHHSIKHILDESVSDIVTSRGYKEDVRLSNLKLILGTIIIVVALVAQFYNK 70

Query: 64 KFPENCDFLIGCIILY 80
          KFPEN DFLIGCI LY
Sbjct: 71 KFPENRDFLIGCIALY 86

[Close]
BLAST of Bhi12G001157 vs. TAIR10
Match: AT2G39960.1 (Microsomal signal peptidase 25 kDa subunit (SPC25))

HSP 1 Score: 128.6 bits (322), Expect = 1.9e-30
Identity = 62/76 (81.58%), Postives = 69/76 (90.79%), Query Frame = 0 

Query: 4  KNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQFYKK 63
          KNVKKANLLDHHS+KH+LDESVS+IVT  GY EDVRLSN+KLI+GT II++ALVAQFY K
Sbjct: 11 KNVKKANLLDHHSIKHILDESVSDIVTSRGYKEDVRLSNLKLILGTIIIVVALVAQFYNK 70

Query: 64 KFPENCDFLIGCIILY 80
          KFPEN DFLIGCI LY
Sbjct: 71 KFPENRDFLIGCIALY 86

[Close]
BLAST of Bhi12G001157 vs. TAIR10
Match: AT4G04200.1 (Microsomal signal peptidase 25 kDa subunit (SPC25))

HSP 1 Score: 93.2 bits (230), Expect = 8.8e-20
Identity = 46/63 (73.02%), Postives = 53/63 (84.13%), Query Frame = 0 

Query: 2  AIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQFY 61
          A KNVKK NLLDH ++KHLLDESVS+IVT  GY EDVRLSNVK ++G  II++ALVAQFY
Sbjct: 9  ATKNVKKVNLLDHIAIKHLLDESVSDIVTSRGYKEDVRLSNVKFLLGGIIIVVALVAQFY 68

Query: 62 KKK 65
           KK
Sbjct: 69 NKK 71

[Close]
BLAST of Bhi12G001157 vs. TrEMBL
Match: tr|A0A1S3CIQ9|A0A1S3CIQ9_CUCME (probable signal peptidase complex subunit 2 OS=Cucumis melo OX=3656 GN=LOC103501424 PE=4 SV=1)

HSP 1 Score: 141.7 bits (356), Expect = 7.8e-31
Identity = 73/79 (92.41%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHSLKHLLDESVSEIVT  GYVEDVRLSNVKLIMGT IIIIALVAQF
Sbjct: 1  MATKNAKKANLLDHHSLKHLLDESVSEIVTSRGYVEDVRLSNVKLIMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

[Close]
BLAST of Bhi12G001157 vs. TrEMBL
Match: tr|A0A2P2KTK9|A0A2P2KTK9_RHIMU (Putative signal peptidase complex subunit 2 OS=Rhizophora mucronata OX=61149 PE=4 SV=1)

HSP 1 Score: 137.5 bits (345), Expect = 1.5e-29
Identity = 66/80 (82.50%), Postives = 75/80 (93.75%), Query Frame = 0 

Query: 2  AIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQFY 61
          A KN KKANLLDHHS+KH+LDESV+EIVTG G+VEDVRLSNV+L++GT IIIIALVAQFY
Sbjct: 9  ANKNAKKANLLDHHSIKHILDESVTEIVTGHGFVEDVRLSNVRLLIGTIIIIIALVAQFY 68

Query: 62 KKKFPENCDFLIGCIILYPF 82
          KKKFP+N DFLIGCI+LYPF
Sbjct: 69 KKKFPDNRDFLIGCIVLYPF 88

[Close]
BLAST of Bhi12G001157 vs. TrEMBL
Match: tr|A0A2N9H2L1|A0A2N9H2L1_FAGSY (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS33743 PE=4 SV=1)

HSP 1 Score: 136.7 bits (343), Expect = 2.5e-29
Identity = 66/82 (80.49%), Postives = 74/82 (90.24%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          +A KN KKANLLDHHS+KH+LDESVSEIVTG GYVEDVR+SN++L+MG  II+IALVAQF
Sbjct: 9  VATKNPKKANLLDHHSIKHILDESVSEIVTGRGYVEDVRMSNIRLVMGAIIIVIALVAQF 68

Query: 61 YKKKFPENCDFLIGCIILYPFS 83
          YKKKFPEN DFLI CI LYPFS
Sbjct: 69 YKKKFPENRDFLIACIGLYPFS 90

[Close]
BLAST of Bhi12G001157 vs. TrEMBL
Match: tr|V4TGS5|V4TGS5_9ROSI (Uncharacterized protein OS=Citrus clementina OX=85681 GN=CICLE_v10032786mg PE=4 SV=1)

HSP 1 Score: 136.3 bits (342), Expect = 3.3e-29
Identity = 67/81 (82.72%), Postives = 73/81 (90.12%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHS+KH+LDESVSEIVT  GYVEDVR+SNV+L++GT II IALVAQF
Sbjct: 13 MANKNPKKANLLDHHSIKHILDESVSEIVTSRGYVEDVRMSNVRLLLGTIIIAIALVAQF 72

Query: 61 YKKKFPENCDFLIGCIILYPF 82
          YKKKFPEN DFLIGCI LYPF
Sbjct: 73 YKKKFPENRDFLIGCIALYPF 93

[Close]
BLAST of Bhi12G001157 vs. TrEMBL
Match: tr|A0A2H5NJL2|A0A2H5NJL2_CITUN (Uncharacterized protein OS=Citrus unshiu OX=55188 GN=CUMW_051390 PE=4 SV=1)

HSP 1 Score: 136.3 bits (342), Expect = 3.3e-29
Identity = 67/81 (82.72%), Postives = 73/81 (90.12%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHS+KH+LDESVSEIVT  GYVEDVR+SNV+L++GT II IALVAQF
Sbjct: 13 MANKNPKKANLLDHHSIKHILDESVSEIVTSRGYVEDVRMSNVRLLLGTIIIAIALVAQF 72

Query: 61 YKKKFPENCDFLIGCIILYPF 82
          YKKKFPEN DFLIGCI LYPF
Sbjct: 73 YKKKFPENRDFLIGCIALYPF 93

[Close]
BLAST of Bhi12G001157 vs. NCBI nr
Match: XP_008463218.1 (PREDICTED: probable signal peptidase complex subunit 2 [Cucumis melo])

HSP 1 Score: 141.7 bits (356), Expect = 1.2e-30
Identity = 73/79 (92.41%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHSLKHLLDESVSEIVT  GYVEDVRLSNVKLIMGT IIIIALVAQF
Sbjct: 1  MATKNAKKANLLDHHSLKHLLDESVSEIVTSRGYVEDVRLSNVKLIMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

[Close]
BLAST of Bhi12G001157 vs. NCBI nr
Match: XP_022942200.1 (probable signal peptidase complex subunit 2 [Cucurbita moschata] >XP_023529201.1 probable signal peptidase complex subunit 2 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 141.7 bits (356), Expect = 1.2e-30
Identity = 73/79 (92.41%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHSLKHLLDESVSEIVT  GYVEDVRLSNVKLIMGT IIIIALVAQF
Sbjct: 1  MATKNAKKANLLDHHSLKHLLDESVSEIVTSRGYVEDVRLSNVKLIMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

[Close]
BLAST of Bhi12G001157 vs. NCBI nr
Match: XP_022996614.1 (probable signal peptidase complex subunit 2 [Cucurbita maxima])

HSP 1 Score: 141.7 bits (356), Expect = 1.2e-30
Identity = 73/79 (92.41%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHSLKHLLDESVSEIVT  GYVEDVRLSNVKLIMGT IIIIALVAQF
Sbjct: 1  MATKNAKKANLLDHHSLKHLLDESVSEIVTSRGYVEDVRLSNVKLIMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

[Close]
BLAST of Bhi12G001157 vs. NCBI nr
Match: XP_011654984.1 (PREDICTED: probable signal peptidase complex subunit 2 [Cucumis sativus])

HSP 1 Score: 140.6 bits (353), Expect = 2.6e-30
Identity = 73/79 (92.41%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHSLKHLLDESVSEIVT  GYVEDVRLSNVKLIMGT IIIIALVAQF
Sbjct: 1  MASKNAKKANLLDHHSLKHLLDESVSEIVTTRGYVEDVRLSNVKLIMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

[Close]
BLAST of Bhi12G001157 vs. NCBI nr
Match: XP_022156934.1 (probable signal peptidase complex subunit 2 [Momordica charantia])

HSP 1 Score: 139.8 bits (351), Expect = 4.5e-30
Identity = 70/79 (88.61%), Postives = 73/79 (92.41%), Query Frame = 0 

Query: 1  MAIKNVKKANLLDHHSLKHLLDESVSEIVTGCGYVEDVRLSNVKLIMGTFIIIIALVAQF 60
          MA KN KKANLLDHHS+KH+LDESVSEIVT  GYVEDVRLSNVKL+MGT IIIIALVAQF
Sbjct: 1  MATKNAKKANLLDHHSIKHILDESVSEIVTSRGYVEDVRLSNVKLVMGTVIIIIALVAQF 60

Query: 61 YKKKFPENCDFLIGCIILY 80
          YKKKFPEN DFLIGCIILY
Sbjct: 61 YKKKFPENRDFLIGCIILY 79

The following BLAST results are available for this feature:
BLAST of Bhi12G001157 vs. Swiss-Prot
Match NameE-valueIdentityDescription
sp|P58684|SPCS2_ARATH3.4e-2981.58Probable signal peptidase complex subunit 2 OS=Arabidopsis thaliana OX=3702 GN=A... [more]
BLAST of Bhi12G001157 vs. TAIR10
Match NameE-valueIdentityDescription
AT2G39960.11.9e-3081.58Microsomal signal peptidase 25 kDa subunit (SPC25)[more]
AT4G04200.18.8e-2073.02Microsomal signal peptidase 25 kDa subunit (SPC25)[more]
BLAST of Bhi12G001157 vs. TrEMBL
Match NameE-valueIdentityDescription
tr|A0A1S3CIQ9|A0A1S3CIQ9_CUCME7.8e-3192.41probable signal peptidase complex subunit 2 OS=Cucumis melo OX=3656 GN=LOC103501... [more]
tr|A0A2P2KTK9|A0A2P2KTK9_RHIMU1.5e-2982.50Putative signal peptidase complex subunit 2 OS=Rhizophora mucronata OX=61149 PE=... [more]
tr|A0A2N9H2L1|A0A2N9H2L1_FAGSY2.5e-2980.49Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS33743 PE=4 SV=1[more]
tr|V4TGS5|V4TGS5_9ROSI3.3e-2982.72Uncharacterized protein OS=Citrus clementina OX=85681 GN=CICLE_v10032786mg PE=4 ... [more]
tr|A0A2H5NJL2|A0A2H5NJL2_CITUN3.3e-2982.72Uncharacterized protein OS=Citrus unshiu OX=55188 GN=CUMW_051390 PE=4 SV=1[more]
BLAST of Bhi12G001157 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008463218.11.2e-3092.41PREDICTED: probable signal peptidase complex subunit 2 [Cucumis melo][more]
XP_022942200.11.2e-3092.41probable signal peptidase complex subunit 2 [Cucurbita moschata] >XP_023529201.1... [more]
XP_022996614.11.2e-3092.41probable signal peptidase complex subunit 2 [Cucurbita maxima][more]
XP_011654984.12.6e-3092.41PREDICTED: probable signal peptidase complex subunit 2 [Cucumis sativus][more]
XP_022156934.14.5e-3088.61probable signal peptidase complex subunit 2 [Momordica charantia][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0008233peptidase activity
Vocabulary: Cellular Component
TermDefinition
GO:0005787signal peptidase complex
GO:0016021integral component of membrane
Vocabulary: Biological Process
TermDefinition
GO:0006465signal peptide processing
Vocabulary: INTERPRO
TermDefinition
IPR009582SigPept_cplx_su2
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0045047 protein targeting to ER
biological_process GO:0006465 signal peptide processing
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005787 signal peptidase complex
molecular_function GO:0008233 peptidase activity
Relationships

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

Feature NameUnique NameType
Bhi12M001157Bhi12M001157mRNA


InterPro
Analysis Name: InterPro Annotations of wax gourd
Date Performed: 2019-11-17
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR009582Signal peptidase complex subunit 2PFAMPF06703SPC25coord: 17..79
e-value: 1.9E-14
score: 53.7
IPR009582Signal peptidase complex subunit 2PANTHERPTHR13085MICROSOMAL SIGNAL PEPTIDASE 25 KDA SUBUNITcoord: 5..79

Synteny
The following gene(s) are orthologous to this gene:

None

The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Bhi12G001157Cucumber (Gy14) v1cgywgoB496
Bhi12G001157Wild cucumber (PI 183967)cpiwgoB455
Bhi12G001157Cucumber (Chinese Long) v3cucwgoB463
Bhi12G001157Cucumber (Chinese Long) v2cuwgoB452
Bhi12G001157Bottle gourd (USVL1VR-Ls)lsiwgoB030
Bhi12G001157Melon (DHL92) v3.6.1medwgoB012
Bhi12G001157Watermelon (Charleston Gray)wcgwgoB326
Bhi12G001157Watermelon (97103) v2wgowmbB070