Sgr026697 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr026697
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionUnknown protein
Locationtig00153033: 2714862 .. 2722134 (+)
RNA-Seq ExpressionSgr026697
SyntenySgr026697
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGCTCGTCGAACCGCCATTCGGCTCGATAAGCTCCACCTTCATCTCCCTATCGGCGTACAACCTCTCCTCTTCCGCCGGCAGCAAGAACTTCTCCTTCATCTTCTTCGCCGGGATCGACAATCGGTTGCGGTTCTCGTCGACATCGGACTTGTGCAGTCTCTTCTCCATCAAGATTCGAGGACGAATCGTTCGCGGATCGTCGATTCGTTTCGTGAATAACGATGGAAAATTCGGAAGGAGCGCGAAGCAGAGTCTCCCATGGCCGCCGGCGCGAAAACTCCATAGCCGAACCTTCGCTCCCTCCTGCAACTCATTCCTCTCCACCACATCCTTCCACTCCGTGATCATCACGTACGCCGGTCCCTTCCTCGTCTCCCACTTGCTCAGCGTCACCGGACTCACCGACGCGTCCGGCTCGATCATCTCCACCGTCTGCCACTTCTCCTCGTTCAGCCTCTCCTCCTCCTCCAGTTCCAGAAAGTTCGTTCTGATCTTCCTCAGCGGAATCGACAGCCGGTTGTGCCGCTCGTCCACGTCCGCCCTACTCAATTTTTTCTCCACCACGAATTTAGGGCTCCATCCTCCCATGAAATTCATCGCTTTCTTGAACTCATTGCTGCGCGTTCTTGATCGCTATCGCTCTGGCTGCCGCCGTCGAAGAACAAGGCGGTCGACGGCGCCGGCTCGAGATTTGAATCGCTGGCCCATTCGAAGATTGGCCGTTTCAGAGCCTTTTCTCTCAATAATCTCAGTCGCTTTGGGTCTGTTTCCATCTTCCTCCTCTTTCTCTTCGTCAACTCTTCGTTTTCTTGATGTTCATCCTCGCCGGAGGGATTTGAACGGCCTGAATGCATATTCTCGCCGGCGAAGAAGAAGTGACAAGAACGACGGGGTTTTAGACCAGAAAACCCACCAGCTTCGCCACATCGTCGGGCTCCCCGAGCCGGCCGAGGGGGCAGGCGTCGACCAGCTTCGCCACCGTCTGCTCCGTTTTACCGGCGAAAAACAGCTCCGTCGCGACGGGCCCCGGCGCCACGCAGTTTGCCGTAATCTGCGTGCCCTTCAGTTCCTTAGCCACAATCTTCGTCATGGCCTCAACCGCCGCCTTCGACGCCGCATAAGCTCCGTATCCCGGCGGGACCTACTGGCCGCCTCCCTGCAGACCAAGAACGCGCCTCTACAGTTCACTCGAAACGTCTCGTCCCAGTCGTCCACGGCGGTTCCGGCCAGACTCGGATATTTGGAGTCAAGAACCCCGGCTGAGTTCACGACGATGTGGACTCCAGATCCAAACTCCCGTTCCGCTGCATCGAACAGCCGCTTGACCTGA

Coding sequence (CDS)

ATGGAGCTCGTCGAACCGCCATTCGGCTCGATAAGCTCCACCTTCATCTCCCTATCGGCGTACAACCTCTCCTCTTCCGCCGGCAGCAAGAACTTCTCCTTCATCTTCTTCGCCGGGATCGACAATCGGTTGCGGTTCTCGTCGACATCGGACTTGTGCAGTCTCTTCTCCATCAAGATTCGAGGACGAATCGTTCGCGGATCGTCGATTCGTTTCGTGAATAACGATGGAAAATTCGGAAGGAGCGCGAAGCAGAGTCTCCCATGGCCGCCGGCGCGAAAACTCCATAGCCGAACCTTCGCTCCCTCCTGCAACTCATTCCTCTCCACCACATCCTTCCACTCCGTGATCATCACGTACGCCGGTCCCTTCCTCGTCTCCCACTTGCTCAGCGTCACCGGACTCACCGACGCGTCCGGCTCGATCATCTCCACCGTCTGCCACTTCTCCTCGTTCAGCCTCTCCTCCTCCTCCAGTTCCAGAAAGTTCGTTCTGATCTTCCTCAGCGGAATCGACAGCCGGTTGTGCCGCTCGTCCACGTCCGCCCTACTCAATTTTTTCTCCACCACGAATTTAGGGCTCCATCCTCCCATGAAATTCATCGCTTTCTTGAACTCATTGCTGCGCGTTCTTGATCGCTATCGCTCTGGCTGCCGCCGTCGAAGAACAAGGCGGTCGACGGCGCCGGCTCGAGATTTGAATCGCTGGCCCATTCGAAGATTGGCCGTTTCAGAGCCTTTTCTCTCAATAATCTCAGTCGCTTTGGGTCTGTTTCCATCTTCCTCCTCTTTCTCTTCGTCAACTCTTCGTTTTCTTGATGTTCATCCTCGCCGGAGGGATTTGAACGGCCTGAATGCATATTCTCGCCGGCGAAGAAGAAGTGACAAGAACGACGGGGTTTTAGACCAGAAAACCCACCAGCTTCGCCACATCGTCGGGCTCCCCGAGCCGGCCGAGGGGGCAGGCGTCGACCAGCTTCGCCACCGTCTGCTCCGTTTTACCGGCGAAAAACAGCTCCGTCGCGACGGGCCCCGGCGCCACGCAGTTTGCCGTAATCTGCGTGCCCTTCAGTTCCTTAGCCACAATCTTCGTCATGGCCTCAACCGCCGCCTTCGACGCCGCATAAGCTCCGTATCCCGGCGGGACCTACTGGCCGCCTCCCTGCAGACCAAGAACGCGCCTCTACAGTTCACTCGAAACGTCTCGTCCCAGTCGTCCACGGCGGTTCCGGCCAGACTCGGATATTTGGAGTCAAGAACCCCGGCTGAGTTCACGACGATGTGGACTCCAGATCCAAACTCCCGTTCCGCTGCATCGAACAGCCGCTTGACCTGA

Protein sequence

MELVEPPFGSISSTFISLSAYNLSSSAGSKNFSFIFFAGIDNRLRFSSTSDLCSLFSIKIRGRIVRGSSIRFVNNDGKFGRSAKQSLPWPPARKLHSRTFAPSCNSFLSTTSFHSVIITYAGPFLVSHLLSVTGLTDASGSIISTVCHFSSFSLSSSSSSRKFVLIFLSGIDSRLCRSSTSALLNFFSTTNLGLHPPMKFIAFLNSLLRVLDRYRSGCRRRRTRRSTAPARDLNRWPIRRLAVSEPFLSIISVALGLFPSSSSFSSSTLRFLDVHPRRRDLNGLNAYSRRRRRSDKNDGVLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLRALQFLSHNLRHGLNRRLRRRISSVSRRDLLAASLQTKNAPLQFTRNVSSQSSTAVPARLGYLESRTPAEFTTMWTPDPNSRSAASNSRLT
Homology
[Close]
BLAST of Sgr026697 vs. NCBI nr
Match: KAG2405335.1 (uncharacterized protein HKW66_Vig0045900 [Vigna angularis])

HSP 1 Score: 67.8 bits (164), Expect = 2.7e-07
Identity = 37/86 (43.02%), Postives = 51/86 (59.30%), Query Frame = 0 

Query: 295 DKNDGVLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLR 354
           D    +  Q+ H   H+ GL +P +   +    H LLR   ++ LR DGPRRHAV R+LR
Sbjct: 51  DPFSSISGQEPHNRSHVFGLTQPPQRTLLHDPIHSLLRLPLKEHLRCDGPRRHAVRRDLR 110

Query: 355 ALQFLSHNLRHGLNRRLRRRISSVSR 381
           +LQFL  NL H L+R LRR +++  R
Sbjct: 111 SLQFLRQNLHHRLHRSLRRSVNTEPR 136

[Close]
BLAST of Sgr026697 vs. NCBI nr
Match: PON86873.1 (hypothetical protein TorRG33x02_173990, partial [Trema orientale])

HSP 1 Score: 60.1 bits (144), Expect = 5.7e-05
Identity = 33/81 (40.74%), Postives = 49/81 (60.49%), Query Frame = 0 

Query: 300 VLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLRALQFL 359
           +  Q++H  RHI+ L +P++   + +L +  L    ++ LRRD PRRHAV R+ R LQ L
Sbjct: 15  ISSQESHHRRHILNLTKPSQRTLLHRLLYLFLALPRKEHLRRDWPRRHAVGRDARPLQLL 74

Query: 360 SHNLRHGLNRRLRRRISSVSR 381
            H L H L+  LRRR+   +R
Sbjct: 75  RHYLYHRLHCGLRRRVRPKAR 95

[Close]
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match: M5W6M3 (Uncharacterized protein OS=Prunus persica OX=3760 GN=PRUPE_ppa012386mg PE=4 SV=1)

HSP 1 Score: 85.9 bits (211), Expect = 4.7e-13
Identity = 45/81 (55.56%), Postives = 55/81 (67.90%), Query Frame = 0 

Query: 299 GVLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLRALQF 358
           G+  QKTH L HI+GLP+P + A +  L HRLL    E+QLRR+ PRRHA+ R    LQ 
Sbjct: 41  GIPCQKTHHLSHILGLPQPIQRASLCNLLHRLLTLPCEEQLRRNRPRRHAIRRYPAPLQL 100

Query: 359 LSHNLRHGLNRRLRRRISSVS 380
           L  NLRH L RRLRRR+ S+S
Sbjct: 101 LRQNLRHRLRRRLRRRVGSIS 121

[Close]
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match: A0A2P5EMW3 (Uncharacterized protein (Fragment) OS=Trema orientale OX=63057 GN=TorRG33x02_173990 PE=4 SV=1)

HSP 1 Score: 60.1 bits (144), Expect = 2.7e-05
Identity = 33/81 (40.74%), Postives = 49/81 (60.49%), Query Frame = 0 

Query: 300 VLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLRALQFL 359
           +  Q++H  RHI+ L +P++   + +L +  L    ++ LRRD PRRHAV R+ R LQ L
Sbjct: 15  ISSQESHHRRHILNLTKPSQRTLLHRLLYLFLALPRKEHLRRDWPRRHAVGRDARPLQLL 74

Query: 360 SHNLRHGLNRRLRRRISSVSR 381
            H L H L+  LRRR+   +R
Sbjct: 75  RHYLYHRLHCGLRRRVRPKAR 95

[Close]
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match: A0A2P5AU31 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_300690 PE=4 SV=1)

HSP 1 Score: 55.8 bits (133), Expect = 5.2e-04
Identity = 28/69 (40.58%), Postives = 43/69 (62.32%), Query Frame = 0 

Query: 300 VLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGEKQLRRDGPRRHAVCRNLRALQFL 359
           +  Q++H  RHI+ L +P++   + +L +  L    ++ LRRD PRRHAV R+ R+LQ L
Sbjct: 15  ISSQESHHRRHILNLTKPSQRTLLHRLLYLFLALPRKEHLRRDWPRRHAVGRDTRSLQLL 74

Query: 360 SHNLRHGLN 369
            H L H L+
Sbjct: 75  RHYLYHRLH 83

[Close]
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match: A0A2P5EMU4 (Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_173960 PE=4 SV=1)

HSP 1 Score: 55.5 bits (132), Expect = 6.8e-04
Identity = 37/105 (35.24%), Postives = 55/105 (52.38%), Query Frame = 0 

Query: 277 RRRDLNGLNAYSRRRRRSDKNDGVLDQKTHQLRHIVGLPEPAEGAGVDQLRHRLLRFTGE 336
           ++R LN  +  +      D    +  QK+H L HI+ L +P + A + +     LR  G 
Sbjct: 24  KKRKLNNHSTINPNDLPIDPLPSISSQKSHNLSHILWLTKPPQRAALHEPVDHFLRLPGI 83

Query: 337 KQLRRDGPRRHAVCRNLRALQFLSHNLRHGLNRRLRRRISSVSRR 382
           +Q+    PR +A+ RN  ALQ L   LRH L R LRRR+  V+R+
Sbjct: 84  EQIAGHRPRCNAIRRNSGALQLLRQYLRHRLYRGLRRRVRRVTRQ 128

The following BLAST results are available for this feature:
BLAST of Sgr026697 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG2405335.12.7e-0743.02uncharacterized protein HKW66_Vig0045900 [Vigna angularis][more]
PON86873.15.7e-0540.74hypothetical protein TorRG33x02_173990, partial [Trema orientale][more]
BLAST of Sgr026697 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
M5W6M34.7e-1355.56Uncharacterized protein OS=Prunus persica OX=3760 GN=PRUPE_ppa012386mg PE=4 SV=1[more]
A0A2P5EMW32.7e-0540.74Uncharacterized protein (Fragment) OS=Trema orientale OX=63057 GN=TorRG33x02_173... [more]
A0A2P5AU315.2e-0440.58Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5EMU46.8e-0435.24Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_173960 PE=4 SV... [more]
BLAST of Sgr026697 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 424..444

Relationships

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

Feature NameUnique NameType
Sgr026697.1Sgr026697.1mRNA