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Spg029120 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAGAACACGCAAAAGATATCATCATCACGCAAGATTACTCGATCCCATGGTAATCCAACCGGCCACGAAGCTGAAGCAAGTGACCGACGGCAAGAGGAGAACCTCGAAACGCACATGCATGGCACGCGAAGAACGAGACCCACGAGATTCTCACCAGCGGTTGTGAATGTCGGACCCAACGCTCAAACTCCATCTTCTTTGACAATGCCGGCCACGTCGAGGGAGATTCTGAGTTTGTCTTCAACGAGAAAGTTCACGCGCGCCACTGCCGTCCGCCAAACCCAAAAACCCGCCACTCAACAATTTAGAAACTGCTCGCGGGAGTGGTTTGCAATGATCAGGGAGATGGGAGCTCAGAGACGTGCTGCCCTTGAAGAAGAAGGAAATCGACAAGTGATAACTTGCAAAAAGCAAGTTATTTCTCCTTTAAACTTAGGCTAAAATAAGGCTAAAAAATTATATTGATGCGTTGTTGCAACGCAGTAAGGAAGGAAAATGCGATGGTTTCCTGCGGGAGGCTATATTTATAGATGCGGTACGAAATTAATAAAGATATAACGCGCTAACGCATTAAAGATGTAGTTGTTTATTGCCCAAGTTTTCTTCAGCGCAGGCACAAATCCCAAAACGCTCGTGAAAGGAAAGAAGGGTGAAAAGACCGTGCTGACACATATCTGATACACCATCTGGCAGAAGATAACTGGGGCACGTTTGCTAGTTCCTTGGTGAAGTCAGTTTCCCTTGCCTATAAAAAGCATCCACCTGCCCAAGGGACGGGAAAAGGAGGAGAGGAGAAAAAAAGCAAGGAGAAAGAGAAATCATAGAAGGTCACTATGGAGGGTAGACTTGTATTGCGTAACAAGATGTATTACATAGTGTATTCCTCTGCACGCATGAGCTAATTTTCTTTTTCAAGGTTTAGCGCAGGCACCCATGCGGTGATAAGTTTATTTTGTAAGCGCAGACTTTGATTTAATGAAACATTAATGCCTTCTACTTAGATGCGATACTATTTTCATTACTAACTCCCGCCTGGTCAGCCGAATGCGGTAGCAGTATGATAAATCCCTGACAGGTAATGCATGTGGAAATATCTAAGTAGAACAAGCTAGCGCATTGCATGTAGTCTTGGTAGCATTAGATAAATACTATCGCTATAAGATAGTGCATGAATGAGCTTTGACTGTGTTAATATTAACGCAGTCTCATGTAAGTTGTTAGAGAACTAAGCCTATGCATGAACTAATTAAACAAAACAGTTGTTAGTTCTTCGCCAAACGCATAAGTAGTACCGGAAGGGAATTCTATGATTTTTTCTCGCTAAGGCATTAATGGATCAATTAGTCACAGTATGCGCCACAATGTTACTTATAAACGCATGAGGTTGCTACCGCAACAACCTTGATAGTATTATCATTGAGAACTTCTCTTAACTCACAGCGCATGTTTCATTTTTCTGCATTTTATTAATATTCATTTCCATCAAATCTCTTCTTTAAACTTTCATAATACCACGCGTCCTTGAGTTCAAATCAACAAGTTATTAAAGATTTTCAATCACCTTTCCCTGTGGATTCAACCCTAGAACTCACTAGGTATTACTTGATTGTGTTAATTTATACTTGGATTAATACATATCTACGATAAATGCTGTATTAATTTATTGGCATACTTACAACCGATCAGCAAGTTGAAGAAGAAGCCGCCAAGGCAGCTGGAAGCTCTCGGCAAGAAGGAACTTCATCGGGTAAGTATTCTGAACCATCAACTAACCCCTCTTCATCTTGCAGGGCCAAACCCTTTGTTACCTATAGTGCAAAGAAGAAAAGTCCCAAGAAAAATGTGCCCGAAAAGCCGCTTGTGATTGAGCCCCTTAAAACCGCAAGGATGCCTCCGGACATGTTCGACGACACAATCTGCCAAGCTGTGGCAAAGGCTCTTGTGATTGCTGAAGGGTACAGGGTTGAACAAGATGCTTTGAAGGAGATTGAAGCTGAGAGAGAGCTGGAAAATCAGCATATGATGGAGGAGGATGAGTTTGCAAAAGAAAGAGATCGTGAAGAAGAGAAAAGAAGGAGATAAGAAGAGCAAGAGGCCGAGAGGGCCTTAGAAGCTGAAGAAGAAAGAAAGTTTGAGGAAAACCTCAGGAGGGCAGCCATTGATTTGCAACTCCTTGAGGAAGAGCAAAAGAGAAGGGAAGAATTGAGAGAAGATGAGAAAAGAAGAAAGGAAGCTGAAGACTTCCTTGCAGCCTTTGAGCCACTCCACAAGACTCAAAGTGAGGCTGAATTGCTGCAAGGGAGGGTAGAAGAAGAGGCCCAACAGGGGCCAACTAAAGAAATTTTAGAAAAAGAAAAAGAAAGAGAAGTAGAGGAGGAAGGTCAGAATGCGATCGCATCTGGGCCGCATTCTGAAGAAGGCCTAGCAGAGGCCACCATTGATCAGCCAACTGAAGAGGTTTTTGAACCTCTATTTACGAATGACCCACCAGCAGCTAATAGCACCTCTTCGGTAGAGAAGAGGGATGAAGAGGAAAAAGAAGACGAGGAGGCCGAGACCTATAGTGACTCAGAGACAGAATCCGATTTAGAGATAAGGGAGCTAGATGGCAACCAAGTCCCTATCTCTGCAACATTGAGGAGAAAGAGAAAGAGAGAGATTAAAGCTGAAAGGAGGACAAAGAACAAGAATGACCCGATATTTGCCAAGAGGCCGAGAACTAGGTCCATGGACGCCTCTCCTACAGTTCCTCCTACCGTCTCACCTGCCAAGCCGAAGGGCAAATCACCTAAGGCTGCATCTCCTAAAAATCCATTCCCCGAGGTATTTAAAGATGTTAATTTTCAGGAACAGATGGAGATCATGAGAAAGAGAGATTTCCTCAATTAGAAGGGATTCTCTAACAGAGCAGGAGCACTGCCAGAGTTCGTAACAAGAGTTATCTCCCAATACAAGTGGCAAGAGTTCTGTGCTCACCCTCAGGAGGCTGTAGTGCCTTTAGTTCGTGAATTTTACGCCGGCCTGAGGGAGGAGAGCATTAGTATGGCAGTGGTGAGGGGGGAGATGGTCAGTTTCTCCTCAGTCGACATTAATAGGGTGTACAGGATCAAGGCACCCCTGAATCTAAGAGGGAACGATGTTATCAGGAACCCCTCGGCCAAGCAGATGAAAGAAACATTAAAACTTGTGGTCAACAAGGGAGTCCAATGGAAAGAGTCTCAGACGAAGGTGAAGACTTTAGTGCCAAGCGACCTAAAGCCAGAATCGCTAGTTTGGCTTCACTTTCTGAAGAACCGTTTGATGCCAACCACCCACGACAGCACCATCTCAGTAGATAGAGTTATGTTACTCTATTGTATCATGAAGGGGATGGAAATCAATGTGGGGAGCATAATCCGGGATGAGATCTTAGCCTGTGGAAGGAAAAGGGCAGGCAAGCTTTTCTTTGGATCACTCATCACCAAGCTCTGTCAGAGGGTGAAGATCGTGCTAGGCAAGGACGAGGAGCGTCATTTCTTCAAACCGACCATTGACCTGTCCTTGATTGGGAAGCTTCAACAGAACAACATCCAGAGGAAAGATAAAGCCTCCACATCTCAGGCTACTCCTCAATCAGAGACGAATGTAGCTTCTCTATCCCAGCACACTCCTTTCACAGGGCCTTCACCATCTTCTGAAGCCCTAGCTATTGCCTACCGCCAGATAGATCAACTCAGGGACAACCTGAGAACATATTGGGCATATGCAAAGGAGCGGGATGAAGCCATTAGAGAGTTCTATCTCTCTATCGCCCCAAGCATTGCTCCTGTCTTTCTATATTTCCCTCAGTCGCTGCTGCCTCAAGAGGACAAGGATTCTGATGAAGAAGAGAATGAAGAGAAATAG ATGAAGAACACGCAAAAGATATCATCATCACGCAAGATTACTCGATCCCATGGTAATCCAACCGGCCACGAAGCTGAAGCAAGTGACCGACGGCAAGAGGAGAACCTCGAAACGCACATGCATGGCACGCGAAGAACGAGACCCACGAGATTCTCACCAGCGGTTGTGAATGTCGGACCCAACGCTCAAACTCCATCTTCTTTGACAATGCCGGCCACGTCGAGGGAGATTCTGAGTTTGTCTTCAACGAGAAAGTTCACGCGCGCCACTGCCGTCCGCCAAACCCAAAAACCCGCCACTCAACAATTTAGAAACTGCTCGCGGGAGTGGTTTGCAATGATCAGGGAGATGGGAGCTCAGAGACGTGCTGCCCTTGAAGAAGAAGGAAATCGACAACAAGTTGAAGAAGAAGCCGCCAAGGCAGCTGGAAGCTCTCGGCAAGAAGGAACTTCATCGGGTAAGTATTCTGAACCATCAACTAACCCCTCTTCATCTTGCAGGGCCAAACCCTTTGTTACCTATAGTGCAAAGAAGAAAAGTCCCAAGAAAAATGTGCCCGAAAAGCCGCTTGTGATTGAGCCCCTTAAAACCGCAAGGATGCCTCCGGACATGTTCGACGACACAATCTGCCAAGCTGTGGCAAAGGCTCTTGTGATTGCTGAAGGGTACAGGGTTGAACAAGATGCTTTGAAGGAGATTGAAGCTGAGAGAGAGCTGGAAAATCAGCATATGATGGAGGAGGATGAGAGGGCAGCCATTGATTTGCAACTCCTTGAGGAAGAGCAAAAGAGAAGGGAAGAATTGAGAGAAGATGAGAAAAGAAGAAAGGAAGCTGAAGACTTCCTTGCAGCCTTTGAGCCACTCCACAAGACTCAAAGTGAGGCTGAATTGCTGCAAGGGAGGGTAGAAGAAGAGGCCCAACAGGGGCCAACTAAAGAAATTTTAGAAAAAGAAAAAGAAAGAGAAGTAGAGGAGGAAGGTCAGAATGCGATCGCATCTGGGCCGCATTCTGAAGAAGGCCTAGCAGAGGCCACCATTGATCAGCCAACTGAAGAGGTTTTTGAACCTCTATTTACGAATGACCCACCAGCAGCTAATAGCACCTCTTCGGTAGAGAAGAGGGATGAAGAGGAAAAAGAAGACGAGGAGGCCGAGACCTATAGTGACTCAGAGACAGAATCCGATTTAGAGATAAGGGAGCTAGATGGCAACCAAGTCCCTATCTCTGCAACATTGAGGAGAAAGAGAAAGAGAGAGATTAAAGCTGAAAGGAGGACAAAGAACAAGAATGACCCGATATTTGCCAAGAGGCCGAGAACTAGGTCCATGGACGCCTCTCCTACAGTTCCTCCTACCGTCTCACCTGCCAAGCCGAAGGGCAAATCACCTAAGGCTGCATCTCCTAAAAATCCATTCCCCGAGGGATTCTCTAACAGAGCAGGAGCACTGCCAGAGTTCGTAACAAGAGTTATCTCCCAATACAAGTGGCAAGAGTTCTGTGCTCACCCTCAGGAGGCTGTAGTGCCTTTAGTTCGTGAATTTTACGCCGGCCTGAGGGAGGAGAGCATTAGTATGGCAGTGGTGAGGGGGGAGATGGTCAGTTTCTCCTCAGTCGACATTAATAGGGTGTACAGGATCAAGGCACCCCTGAATCTAAGAGGGAACGATGTTATCAGGAACCCCTCGGCCAAGCAGATGAAAGAAACATTAAAACTTGTGGTCAACAAGGGAGTCCAATGGAAAGAGTCTCAGACGAAGGTGAAGACTTTAGTGCCAAGCGACCTAAAGCCAGAATCGCTAGTTTGGCTTCACTTTCTGAAGAACCGTTTGATGCCAACCACCCACGACAGCACCATCTCAGTAGATAGAGTTATGTTACTCTATTGTATCATGAAGGGGATGGAAATCAATGTGGGGAGCATAATCCGGGATGAGATCTTAGCCTGTGGAAGGAAAAGGGCAGGCAAGCTTTTCTTTGGATCACTCATCACCAAGCTCTGTCAGAGGGTGAAGATCGTGCTAGGCAAGGACGAGGAGCGTCATTTCTTCAAACCGACCATTGACCTGTCCTTGATTGGGAAGCTTCAACAGAACAACATCCAGAGGAAAGATAAAGCCTCCACATCTCAGGCTACTCCTCAATCAGAGACGAATGTAGCTTCTCTATCCCAGCACACTCCTTTCACAGGGCCTTCACCATCTTCTGAAGCCCTAGCTATTGCCTACCGCCAGATAGATCAACTCAGGGACAACCTGAGAACATATTGGGCATATGCAAAGGAGCGGGATGAAGCCATTAGAGAGTTCTATCTCTCTATCGCCCCAAGCATTGCTCCTGTCTTTCTATATTTCCCTCAGTCGCTGCTGCCTCAAGAGGACAAGGATTCTGATGAAGAAGAGAATGAAGAGAAATAG ATGAAGAACACGCAAAAGATATCATCATCACGCAAGATTACTCGATCCCATGGTAATCCAACCGGCCACGAAGCTGAAGCAAGTGACCGACGGCAAGAGGAGAACCTCGAAACGCACATGCATGGCACGCGAAGAACGAGACCCACGAGATTCTCACCAGCGGTTGTGAATGTCGGACCCAACGCTCAAACTCCATCTTCTTTGACAATGCCGGCCACGTCGAGGGAGATTCTGAGTTTGTCTTCAACGAGAAAGTTCACGCGCGCCACTGCCGTCCGCCAAACCCAAAAACCCGCCACTCAACAATTTAGAAACTGCTCGCGGGAGTGGTTTGCAATGATCAGGGAGATGGGAGCTCAGAGACGTGCTGCCCTTGAAGAAGAAGGAAATCGACAACAAGTTGAAGAAGAAGCCGCCAAGGCAGCTGGAAGCTCTCGGCAAGAAGGAACTTCATCGGGTAAGTATTCTGAACCATCAACTAACCCCTCTTCATCTTGCAGGGCCAAACCCTTTGTTACCTATAGTGCAAAGAAGAAAAGTCCCAAGAAAAATGTGCCCGAAAAGCCGCTTGTGATTGAGCCCCTTAAAACCGCAAGGATGCCTCCGGACATGTTCGACGACACAATCTGCCAAGCTGTGGCAAAGGCTCTTGTGATTGCTGAAGGGTACAGGGTTGAACAAGATGCTTTGAAGGAGATTGAAGCTGAGAGAGAGCTGGAAAATCAGCATATGATGGAGGAGGATGAGAGGGCAGCCATTGATTTGCAACTCCTTGAGGAAGAGCAAAAGAGAAGGGAAGAATTGAGAGAAGATGAGAAAAGAAGAAAGGAAGCTGAAGACTTCCTTGCAGCCTTTGAGCCACTCCACAAGACTCAAAGTGAGGCTGAATTGCTGCAAGGGAGGGTAGAAGAAGAGGCCCAACAGGGGCCAACTAAAGAAATTTTAGAAAAAGAAAAAGAAAGAGAAGTAGAGGAGGAAGGTCAGAATGCGATCGCATCTGGGCCGCATTCTGAAGAAGGCCTAGCAGAGGCCACCATTGATCAGCCAACTGAAGAGGTTTTTGAACCTCTATTTACGAATGACCCACCAGCAGCTAATAGCACCTCTTCGGTAGAGAAGAGGGATGAAGAGGAAAAAGAAGACGAGGAGGCCGAGACCTATAGTGACTCAGAGACAGAATCCGATTTAGAGATAAGGGAGCTAGATGGCAACCAAGTCCCTATCTCTGCAACATTGAGGAGAAAGAGAAAGAGAGAGATTAAAGCTGAAAGGAGGACAAAGAACAAGAATGACCCGATATTTGCCAAGAGGCCGAGAACTAGGTCCATGGACGCCTCTCCTACAGTTCCTCCTACCGTCTCACCTGCCAAGCCGAAGGGCAAATCACCTAAGGCTGCATCTCCTAAAAATCCATTCCCCGAGGGATTCTCTAACAGAGCAGGAGCACTGCCAGAGTTCGTAACAAGAGTTATCTCCCAATACAAGTGGCAAGAGTTCTGTGCTCACCCTCAGGAGGCTGTAGTGCCTTTAGTTCGTGAATTTTACGCCGGCCTGAGGGAGGAGAGCATTAGTATGGCAGTGGTGAGGGGGGAGATGGTCAGTTTCTCCTCAGTCGACATTAATAGGGTGTACAGGATCAAGGCACCCCTGAATCTAAGAGGGAACGATGTTATCAGGAACCCCTCGGCCAAGCAGATGAAAGAAACATTAAAACTTGTGGTCAACAAGGGAGTCCAATGGAAAGAGTCTCAGACGAAGGTGAAGACTTTAGTGCCAAGCGACCTAAAGCCAGAATCGCTAGTTTGGCTTCACTTTCTGAAGAACCGTTTGATGCCAACCACCCACGACAGCACCATCTCAGTAGATAGAGTTATGTTACTCTATTGTATCATGAAGGGGATGGAAATCAATGTGGGGAGCATAATCCGGGATGAGATCTTAGCCTGTGGAAGGAAAAGGGCAGGCAAGCTTTTCTTTGGATCACTCATCACCAAGCTCTGTCAGAGGGTGAAGATCGTGCTAGGCAAGGACGAGGAGCGTCATTTCTTCAAACCGACCATTGACCTGTCCTTGATTGGGAAGCTTCAACAGAACAACATCCAGAGGAAAGATAAAGCCTCCACATCTCAGGCTACTCCTCAATCAGAGACGAATGTAGCTTCTCTATCCCAGCACACTCCTTTCACAGGGCCTTCACCATCTTCTGAAGCCCTAGCTATTGCCTACCGCCAGATAGATCAACTCAGGGACAACCTGAGAACATATTGGGCATATGCAAAGGAGCGGGATGAAGCCATTAGAGAGTTCTATCTCTCTATCGCCCCAAGCATTGCTCCTGTCTTTCTATATTTCCCTCAGTCGCTGCTGCCTCAAGAGGACAAGGATTCTGATGAAGAAGAGAATGAAGAGAAATAG MKNTQKISSSRKITRSHGNPTGHEAEASDRRQEENLETHMHGTRRTRPTRFSPAVVNVGPNAQTPSSLTMPATSREILSLSSTRKFTRATAVRQTQKPATQQFRNCSREWFAMIREMGAQRRAALEEEGNRQQVEEEAAKAAGSSRQEGTSSGKYSEPSTNPSSSCRAKPFVTYSAKKKSPKKNVPEKPLVIEPLKTARMPPDMFDDTICQAVAKALVIAEGYRVEQDALKEIEAERELENQHMMEEDERAAIDLQLLEEEQKRREELREDEKRRKEAEDFLAAFEPLHKTQSEAELLQGRVEEEAQQGPTKEILEKEKEREVEEEGQNAIASGPHSEEGLAEATIDQPTEEVFEPLFTNDPPAANSTSSVEKRDEEEKEDEEAETYSDSETESDLEIRELDGNQVPISATLRRKRKREIKAERRTKNKNDPIFAKRPRTRSMDASPTVPPTVSPAKPKGKSPKAASPKNPFPEGFSNRAGALPEFVTRVISQYKWQEFCAHPQEAVVPLVREFYAGLREESISMAVVRGEMVSFSSVDINRVYRIKAPLNLRGNDVIRNPSAKQMKETLKLVVNKGVQWKESQTKVKTLVPSDLKPESLVWLHFLKNRLMPTTHDSTISVDRVMLLYCIMKGMEINVGSIIRDEILACGRKRAGKLFFGSLITKLCQRVKIVLGKDEERHFFKPTIDLSLIGKLQQNNIQRKDKASTSQATPQSETNVASLSQHTPFTGPSPSSEALAIAYRQIDQLRDNLRTYWAYAKERDEAIREFYLSIAPSIAPVFLYFPQSLLPQEDKDSDEEENEEK Homology
BLAST of Spg029120 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii]) HSP 1 Score: 182.6 bits (462), Expect = 1.4e-41 Identity = 110/331 (33.23%), Postives = 176/331 (53.17%), Query Frame = 0
BLAST of Spg029120 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii]) HSP 1 Score: 162.5 bits (410), Expect = 1.5e-35 Identity = 93/251 (37.05%), Postives = 139/251 (55.38%), Query Frame = 0
BLAST of Spg029120 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii]) HSP 1 Score: 151.4 bits (381), Expect = 3.4e-32 Identity = 75/197 (38.07%), Postives = 113/197 (57.36%), Query Frame = 0
BLAST of Spg029120 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii]) HSP 1 Score: 147.9 bits (372), Expect = 3.7e-31 Identity = 98/299 (32.78%), Postives = 153/299 (51.17%), Query Frame = 0
BLAST of Spg029120 vs. NCBI nr
Match: EXB49850.1 (hypothetical protein L484_000844 [Morus notabilis]) HSP 1 Score: 141.7 bits (356), Expect = 2.7e-29 Identity = 96/298 (32.21%), Postives = 152/298 (51.01%), Query Frame = 0
BLAST of Spg029120 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1) HSP 1 Score: 182.6 bits (462), Expect = 6.6e-42 Identity = 110/331 (33.23%), Postives = 176/331 (53.17%), Query Frame = 0
BLAST of Spg029120 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1) HSP 1 Score: 162.5 bits (410), Expect = 7.1e-36 Identity = 93/251 (37.05%), Postives = 139/251 (55.38%), Query Frame = 0
BLAST of Spg029120 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1) HSP 1 Score: 151.4 bits (381), Expect = 1.6e-32 Identity = 75/197 (38.07%), Postives = 113/197 (57.36%), Query Frame = 0
BLAST of Spg029120 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1) HSP 1 Score: 147.9 bits (372), Expect = 1.8e-31 Identity = 98/299 (32.78%), Postives = 153/299 (51.17%), Query Frame = 0
BLAST of Spg029120 vs. ExPASy TrEMBL
Match: W9RBS1 (Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_000844 PE=4 SV=1) HSP 1 Score: 141.7 bits (356), Expect = 1.3e-29 Identity = 96/298 (32.21%), Postives = 152/298 (51.01%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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