Sgr020902 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr020902
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
Descriptionpheophorbide a oxygenase, chloroplastic
Locationtig00153577: 151295 .. 156963 (-)
RNA-Seq ExpressionSgr020902
SyntenySgr020902
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTCTTTCGATCGCTACCTCTGCTTCTGCTACTCTTATTACATCATCGTTAAATGATATTAAATCTCTCAGAACAGTTCCCTCTTTAATTGCCTCCGATCGGAGCCGTAATTTTCCGTCAAGAAAATTACCTAGTAGGGCAGCGAATCTCAGGCCTGTTCGAGTAGCTGCTCCTCCAACACCGCCATCTACGGCAGATTCCGAGCAATCTGCGGGAGCGAATTCGGATGAAGTGGAAGTGGATGAATCGAGCAATGACAGCTCATCTTCCCCGTTTTCTTGGAGGGATAACTGGTACCCTGTTTCCCTAATTGAAGATTTGGACCCTGCTTTTCCAACCCCGTTTCAGCTTCTGGGAAGAGACATCGTTCTTTGGTTTGATAAATCAAGAGGCGAGTGGGTCGCTTTTGATGATAAATGCCCTCACCGGCTTGCCCCTTTATCTGAAGGGCGGATAGATGATGGTGGCAACTTGCAGTGCTCATACCATGGATGGTCCTTTGATGGGTGTGGATCTTGTGTTAAAATCCCTCAGGCGTCATCGGAAGGCCCGGAATCTCGGGCTCATCAGTCACCAAGAGCATGTGCTACAAGGTTCCCTAGTCTGGTGTCTCAAGGCCTTCTCTTTGTTTGGCCCGATGAGAATGGTTGGGAAAGAGCCAATGCCACTACACCTCCGAGGCTCCCTGATGACTTTGATAAGCCTGAGTTCTCATCAGTTACGATTCAGCGGGACCTATTTTATGGTTATGATACACTAATGGAGAATGTCTCAGATCCTTCTCACATTGATTTTGCTCATCACAAGGTTACAGGGAGGAGGGATCGGGCAAAACCTTTACCTTTTAAGTTGGATTCCAGTGGTCCCTGGGGATTTTCTGGAGCAAATAAGGGGAACCCAAGGATCAGTGCCAAGTTTGTTGCTCCTTGTTACTATATCAACAAAATAGAGATAGACACAAAGCTTCCTGTATTTGGCGATAAAAAATGGGTAATATGGATTTGCTCCTTTAATGTGCCAATGGGTCCTGGAAAAACCCGTTCTATTGTATGTAGTGCTCGAAACTTCTTCCAGTTTACTATGCCCGGTCCTGCTTGGTGGCAGGTGGTCCCTCGATGGCATGAGCATTGGACATCAAACAAGGTATATGATGGCGACATGATTGTTCTTCAGGGTCAGGAGAAGATATTTTTGTCGAAGTCACTGGAAGATTCGACAGATGTTAATAAAGAATACACTAAAATAACATTTACACCGACACAAGCAGATCGTTTGGTGCTGGCGTTCCGTAATTGGCTGAGGCGGCACGGCAAGGGCCAACCTGACTGGTTTGGGGCTGCCAGCCAACAGCCTCTGCCATCAGCAGTCCTATCTAAACGTCAGATGTTGGACAGATTTGAGCAACACACACTCCATTGTTCCTCATGTAGAGGAGCTTATAAAACATTTCAGACACAGCAGAAGCTGCTAATTGGTGCAACTATAGTTTTTGCAGCGACGGCCGGTGTCCCTTCTGAGTTGCAGATACGTATTCTTCTAGCGGGTCTCGCACTCGTTAGCGCCGGGGTGGCTTATGCTCTGTCTGAACTCCAAAAGAATTTTGTGTTTATTGACTATGTTCATGCAGAGATTGATTAG

Coding sequence (CDS)

ATGGCTCTTTCGATCGCTACCTCTGCTTCTGCTACTCTTATTACATCATCGTTAAATGATATTAAATCTCTCAGAACAGTTCCCTCTTTAATTGCCTCCGATCGGAGCCGTAATTTTCCGTCAAGAAAATTACCTAGTAGGGCAGCGAATCTCAGGCCTGTTCGAGTAGCTGCTCCTCCAACACCGCCATCTACGGCAGATTCCGAGCAATCTGCGGGAGCGAATTCGGATGAAGTGGAAGTGGATGAATCGAGCAATGACAGCTCATCTTCCCCGTTTTCTTGGAGGGATAACTGGTACCCTGTTTCCCTAATTGAAGATTTGGACCCTGCTTTTCCAACCCCGTTTCAGCTTCTGGGAAGAGACATCGTTCTTTGGTTTGATAAATCAAGAGGCGAGTGGGTCGCTTTTGATGATAAATGCCCTCACCGGCTTGCCCCTTTATCTGAAGGGCGGATAGATGATGGTGGCAACTTGCAGTGCTCATACCATGGATGGTCCTTTGATGGGTGTGGATCTTGTGTTAAAATCCCTCAGGCGTCATCGGAAGGCCCGGAATCTCGGGCTCATCAGTCACCAAGAGCATGTGCTACAAGGTTCCCTAGTCTGGTGTCTCAAGGCCTTCTCTTTGTTTGGCCCGATGAGAATGGTTGGGAAAGAGCCAATGCCACTACACCTCCGAGGCTCCCTGATGACTTTGATAAGCCTGAGTTCTCATCAGTTACGATTCAGCGGGACCTATTTTATGGTTATGATACACTAATGGAGAATGTCTCAGATCCTTCTCACATTGATTTTGCTCATCACAAGGTTACAGGGAGGAGGGATCGGGCAAAACCTTTACCTTTTAAGTTGGATTCCAGTGGTCCCTGGGGATTTTCTGGAGCAAATAAGGGGAACCCAAGGATCAGTGCCAAGTTTGTTGCTCCTTGTTACTATATCAACAAAATAGAGATAGACACAAAGCTTCCTGTATTTGGCGATAAAAAATGGGTAATATGGATTTGCTCCTTTAATGTGCCAATGGGTCCTGGAAAAACCCGTTCTATTGTATGTAGTGCTCGAAACTTCTTCCAGTTTACTATGCCCGGTCCTGCTTGGTGGCAGGTGGTCCCTCGATGGCATGAGCATTGGACATCAAACAAGGTATATGATGGCGACATGATTGTTCTTCAGGGTCAGGAGAAGATATTTTTGTCGAAGTCACTGGAAGATTCGACAGATGTTAATAAAGAATACACTAAAATAACATTTACACCGACACAAGCAGATCGTTTGGTGCTGGCGTTCCGTAATTGGCTGAGGCGGCACGGCAAGGGCCAACCTGACTGGTTTGGGGCTGCCAGCCAACAGCCTCTGCCATCAGCAGTCCTATCTAAACGTCAGATGTTGGACAGATTTGAGCAACACACACTCCATTGTTCCTCATGTAGAGGAGCTTATAAAACATTTCAGACACAGCAGAAGCTGCTAATTGGTGCAACTATAGTTTTTGCAGCGACGGCCGGTGTCCCTTCTGAGTTGCAGATACGTATTCTTCTAGCGGGTCTCGCACTCGTTAGCGCCGGGGTGGCTTATGCTCTGTCTGAACTCCAAAAGAATTTTGTGTTTATTGACTATGTTCATGCAGAGATTGATTAG

Protein sequence

MALSIATSASATLITSSLNDIKSLRTVPSLIASDRSRNFPSRKLPSRAANLRPVRVAAPPTPPSTADSEQSAGANSDEVEVDESSNDSSSSPFSWRDNWYPVSLIEDLDPAFPTPFQLLGRDIVLWFDKSRGEWVAFDDKCPHRLAPLSEGRIDDGGNLQCSYHGWSFDGCGSCVKIPQASSEGPESRAHQSPRACATRFPSLVSQGLLFVWPDENGWERANATTPPRLPDDFDKPEFSSVTIQRDLFYGYDTLMENVSDPSHIDFAHHKVTGRRDRAKPLPFKLDSSGPWGFSGANKGNPRISAKFVAPCYYINKIEIDTKLPVFGDKKWVIWICSFNVPMGPGKTRSIVCSARNFFQFTMPGPAWWQVVPRWHEHWTSNKVYDGDMIVLQGQEKIFLSKSLEDSTDVNKEYTKITFTPTQADRLVLAFRNWLRRHGKGQPDWFGAASQQPLPSAVLSKRQMLDRFEQHTLHCSSCRGAYKTFQTQQKLLIGATIVFAATAGVPSELQIRILLAGLALVSAGVAYALSELQKNFVFIDYVHAEID
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
XP_022152935.13.1e-30392.87pheophorbide a oxygenase, chloroplastic [Momordica charantia][more]
XP_022964963.12.8e-29691.04pheophorbide a oxygenase, chloroplastic [Cucurbita moschata][more]
XP_038894382.14.8e-29690.13pheophorbide a oxygenase, chloroplastic [Benincasa hispida][more]
XP_023519435.13.4e-29490.33pheophorbide a oxygenase, chloroplastic [Cucurbita pepo subsp. pepo][more]
XP_022970307.12.2e-29390.31pheophorbide a oxygenase, chloroplastic [Cucurbita maxima][more]
Match NameE-valueIdentityDescription
Q9FYC22.3e-22968.35Pheophorbide a oxygenase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAO P... [more]
Q0DV661.9e-22669.37Pheophorbide a oxygenase, chloroplastic OS=Oryza sativa subsp. japonica OX=39947... [more]
Q8W4964.6e-6830.03Protochlorophyllide-dependent translocon component 52, chloroplastic OS=Arabidop... [more]
Q9SK503.8e-4627.71Protein TIC 55, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=TIC55 PE=1 SV=1[more]
O499311.4e-4526.92Protein TIC 55, chloroplastic OS=Pisum sativum OX=3888 GN=TIC55 PE=1 SV=1[more]
Match NameE-valueIdentityDescription
A0A6J1DFC61.5e-30392.87pheophorbide a oxygenase, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111... [more]
A0A6J1HMG21.3e-29691.04pheophorbide a oxygenase, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC1114... [more]
A0A6J1HYR31.1e-29390.31pheophorbide a oxygenase, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111469... [more]
A0A5D3DBC94.5e-29289.03Pheophorbide a oxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffol... [more]
A0A1S3CII74.5e-29289.03pheophorbide a oxygenase, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103500813 ... [more]
Match NameE-valueIdentityDescription
AT3G44880.11.7e-23068.35Pheophorbide a oxygenase family protein with Rieske [2Fe-2S] domain [more]
AT4G25650.11.6e-7131.06ACD1-like [more]
AT4G25650.23.3e-6930.03ACD1-like [more]
AT2G24820.12.7e-4727.71translocon at the inner envelope membrane of chloroplasts 55-II [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D3.90.380.10coord: 237..441
e-value: 3.2E-10
score: 42.1
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 36..93
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 63..93
NoneNo IPR availablePANTHERPTHR21266:SF24PHEOPHORBIDE A OXYGENASE, CHLOROPLASTICcoord: 22..546
NoneNo IPR availablePANTHERPTHR21266IRON-SULFUR DOMAIN CONTAINING PROTEINcoord: 22..546
NoneNo IPR availableCDDcd03480Rieske_RO_Alpha_PaOcoord: 95..222
e-value: 1.17323E-82
score: 251.858
NoneNo IPR availableSUPERFAMILY55961Bet v1-likecoord: 206..441
IPR013626Pheophorbide a oxygenasePFAMPF08417PaOcoord: 307..401
e-value: 7.5E-24
score: 83.7
IPR017941Rieske [2Fe-2S] iron-sulphur domainPFAMPF00355Rieskecoord: 98..181
e-value: 9.0E-20
score: 70.4
IPR017941Rieske [2Fe-2S] iron-sulphur domainPROSITEPS51296RIESKEcoord: 99..211
score: 29.358051
IPR036922Rieske [2Fe-2S] iron-sulphur domain superfamilyGENE3D2.102.10.10coord: 94..236
e-value: 1.4E-39
score: 136.8
IPR036922Rieske [2Fe-2S] iron-sulphur domain superfamilySUPERFAMILY50022ISP domaincoord: 93..218

Relationships

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

Feature NameUnique NameType
Sgr020902.1Sgr020902.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0009507 chloroplast
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0031967 organelle envelope
molecular_function GO:0051537 2 iron, 2 sulfur cluster binding
molecular_function GO:0010277 chlorophyllide a oxygenase [overall] activity
molecular_function GO:0046872 metal ion binding