Genbank accession
XYS97449.1 [GenBank]
Protein name
hypothetical protein
RBP type
TF
Evidence RBPdetect2
Probability 0,41
Protein sequence
MPYSINRTDGTLLTNVQDFTRDSETTSLTLLGRGTVDYGESVAENFVHMLESFSSPTPPANPLQGQTWFHTFDPGPPPSVVNKLKVFDGTTWINVGGAQSSVNPPENPEPGDLWYNIEDSTIYYWDGYQWKKVGGPYTGVPGGTDPAELPDDEIVPPPPNPSEGDLWWMLPERKLWAFDSSLKSLSSFPPKVKRVDGSIVPNGWVLIGPQGLQDPNDPNGGSWTETTKETVIDPTTGEEIEIDMFMVVLDGKIVSVWVPQIVKLKENKIKGMDFGAWADPYDPDATSLTLQPGVNQNHDAAMIFNGQVSDAERLNGLNSSQFLRSDVDTAPIVEDIVLDLGSKAQHWLRFFSKYVYAGDSDPDGEADISEVNVFGMAKKAELCDTAEKAKMFDAAKSLKTEAATSDVEIIFTDLFATEANDYVGTAMLTQQGKDAVKAIAEEVTGDVVSQLPQGSFVPLDKSSVPTGQHDMGNAGQRWGTIYANVFDGEATKTRYADLAERYESDHLYPKGTLVSLGGEKEVTQTSGADDINYFGVVSTQPGFLLNSGAGPDHTHPPVALSGRVPVRLIGKIRKGQRLVLSDIPGVAIALDDAELATVSAHLIVGRALADKLTDEEGTVLCVVGSK
Physico‐chemical
properties
protein length:626 AA
molecular weight: 67729,79050 Da
isoelectric point:4,45484
aromaticity:0,08307
hydropathy:-0,32077

Taxonomy

Phage
Sinorhizobium phage Phosso [NCBI] · taxon 3435197
Host No host information

Coding sequence (CDS)

Genbank protein accession
XYS97449.1 [NCBI]
Genbank nucleotide accession
PV764938 [NCBI]
CDS location
range 193132 -> 195012
strand -
CDS
ATGCCATATTCAATTAATCGTACAGACGGGACATTGCTCACTAATGTCCAGGACTTTACAAGAGATTCTGAAACCACAAGCTTGACTCTGCTTGGTCGCGGTACTGTCGATTACGGTGAGTCTGTTGCTGAGAACTTCGTTCACATGTTGGAATCCTTTTCGAGTCCAACTCCACCGGCTAACCCACTACAGGGTCAGACATGGTTCCACACTTTCGATCCGGGCCCGCCTCCTTCGGTTGTCAATAAGCTGAAGGTGTTCGATGGTACAACTTGGATTAACGTTGGTGGTGCGCAGAGCTCTGTAAACCCACCGGAAAACCCAGAGCCGGGTGACCTGTGGTATAACATCGAAGACAGCACAATCTACTACTGGGATGGTTACCAGTGGAAGAAGGTCGGTGGTCCCTACACGGGTGTTCCTGGTGGTACAGATCCTGCAGAACTTCCTGATGACGAAATTGTTCCTCCTCCGCCGAACCCAAGTGAAGGTGATCTTTGGTGGATGCTTCCTGAACGTAAACTGTGGGCATTCGACTCCTCGCTGAAATCGTTGTCATCGTTCCCTCCGAAGGTAAAGCGCGTTGATGGTTCTATTGTTCCGAATGGTTGGGTTCTTATTGGGCCGCAGGGTCTCCAAGATCCAAATGATCCTAATGGTGGTTCATGGACTGAAACTACTAAGGAAACTGTTATTGACCCGACGACTGGCGAAGAAATCGAAATCGACATGTTCATGGTCGTCCTCGATGGTAAGATTGTATCGGTTTGGGTTCCGCAGATTGTCAAGCTGAAAGAGAACAAGATCAAGGGAATGGACTTCGGTGCATGGGCTGACCCATACGATCCCGACGCTACGAGCTTGACCTTGCAGCCTGGTGTTAACCAGAACCACGATGCTGCAATGATCTTTAACGGCCAGGTATCGGACGCAGAACGTCTCAATGGTTTGAACTCTTCGCAGTTCTTGCGCTCAGACGTTGACACTGCCCCAATCGTAGAAGACATCGTGTTGGATCTTGGTTCGAAGGCACAGCACTGGTTGCGTTTCTTCTCCAAGTATGTCTACGCTGGTGACTCTGATCCAGATGGTGAAGCAGACATTTCCGAAGTCAACGTATTTGGTATGGCCAAGAAGGCTGAACTCTGTGACACAGCAGAAAAGGCCAAGATGTTCGACGCAGCTAAGTCTCTGAAGACTGAAGCCGCAACCAGCGACGTTGAAATCATCTTCACGGATCTATTTGCAACAGAAGCAAACGATTACGTTGGTACTGCGATGCTCACCCAGCAGGGTAAGGACGCAGTCAAGGCAATCGCTGAAGAAGTAACAGGCGACGTTGTTAGCCAACTTCCACAGGGTTCGTTTGTTCCACTTGATAAGTCGTCGGTTCCAACTGGCCAGCACGACATGGGTAACGCGGGTCAGCGTTGGGGCACAATCTACGCTAACGTCTTTGATGGTGAAGCAACTAAGACACGATACGCTGACTTGGCGGAACGTTACGAATCCGACCATCTCTATCCGAAGGGAACTCTTGTAAGCCTCGGTGGTGAGAAGGAAGTCACACAGACAAGTGGTGCCGACGATATCAACTACTTTGGTGTTGTTTCGACACAGCCAGGCTTCCTGCTTAACTCGGGTGCGGGTCCTGACCACACTCACCCACCGGTTGCGCTTTCGGGACGTGTTCCGGTTCGTTTGATCGGTAAAATCCGTAAGGGTCAGCGTTTGGTTCTCTCGGACATTCCAGGCGTTGCGATTGCGTTGGATGATGCAGAACTGGCAACAGTTTCCGCACATTTGATTGTTGGTCGCGCACTCGCTGATAAGCTAACCGACGAAGAAGGCACCGTATTGTGCGTTGTGGGCTCCAAGTAA

Genome Context

Tertiary structure

XYS97449.1
ESMFold structure
Source ESMFold
pLDDT 65.7
Oligomeric state monomer