Homologs in group_3708
2 homologs were identified in 2 genomes with OrthoFinder.
The following table displays the locus tag of each homolog, the organism to which it belongs, the gene name and product.
| Locus tag | Identity | Source | Gene | Product | |
|---|---|---|---|---|---|
| EHELCC_16405 | EHELCC_16405 | 100.0 | Morganella morganii S2 | - | Glycosyl transferase |
| LHKJJB_16855 | LHKJJB_16855 | 100.0 | Morganella morganii S3 | - | Glycosyl transferase |
Number of homologs in each genome (first column) and amino-acid identity of the closest homolog (second column).
| Swissprot accession | Eval | Score | ID (%) | N gaps | Alignment length | Annot score | Gene | Description | Organism |
|---|---|---|---|---|---|---|---|---|---|
| Q53WK1 | 3.25e-23 | 105 | 31 | 9 | 208 | 2 | GINT1 | Glucosamine inositolphosphorylceramide transferase 1 | Oryza sativa subsp. japonica |
| A2Y6Z7 | 1.29e-22 | 103 | 31 | 9 | 208 | 3 | GINT1 | Glucosamine inositolphosphorylceramide transferase 1 | Oryza sativa subsp. indica |
| Q84WB7 | 3.1e-22 | 102 | 29 | 6 | 216 | 1 | GINT1 | Glucosamine inositolphosphorylceramide transferase 1 | Arabidopsis thaliana |
| Source | Morganella morganii S1 |
|---|---|
| Locus tag | FBDBKF_16370 |
| Feature type | CDS |
| Gene | - |
| Product | Glycosyl transferase |
| Location | 61536 - 62684 (strand: -1) |
| Length | 1149 (nucleotides) / 382 (amino acids) |
| Accession | contig_23 |
|---|---|
| Length | 63965 nucleotides |
| Topology | linear |
| Plasmid | False |
| Orthogroup | group_3708 | |
|---|---|---|
| Orthogroup size | 3 | |
| N. genomes | 3 |
MVSLKIGSGRSLSLEIMLSTIFYDSLLFEITDDNGEKINYSLLPNRISFKKNKILVDSKICMLQERYGYKINIRNPSYSRSIFTPLLYAILFFKTLFTKIFIPSQWILAFKEKSTDKWSKIKFDNNELMADPFIYYHNSKYYVLYEALNYDTDKGYISIGTLDVKNKEIIDNHIIIEENYHLSYPFILKINDELYIIPESSYNNTIDLYKCIEFPYKWEKIRTLIDNISAVDTNLINKNGLWYLLTSEKKMGVSFGDELSLYVTDDPLSGTFLPVIGNPVVHDISKSRNAGEILNNIRVSQDCSKRYGYRVNFMEINELSENNYSERYIKSLKLPFGTIAMHTYNSAENIEIVDLKIINISPYFLYRNLCRIIKKLKTKILK
ACCAACTTATCTTCTATCAAAAATATACAGCAAATTAAGGAATTAACTTCATGGTTTCGCTTAAAATAGGCAGTGGTAGAAGCCTATCATTAGAAATTATGCTATCTACTATTTTTTATGACAGCTTATTGTTTGAAATAACAGACGATAATGGTGAAAAGATAAATTACTCCCTTCTCCCAAACCGTATTTCTTTCAAAAAAAATAAGATATTAGTTGATAGTAAAATTTGCATGTTACAAGAGCGTTATGGCTATAAAATAAATATACGCAACCCATCATACTCTCGTTCTATATTTACTCCATTACTATACGCTATATTATTTTTTAAAACATTATTTACTAAAATTTTCATCCCCAGCCAATGGATTCTTGCATTTAAAGAAAAAAGCACCGATAAATGGTCAAAAATAAAGTTTGATAATAATGAATTAATGGCTGACCCTTTTATATACTATCATAACTCAAAATATTATGTTCTATATGAAGCATTAAATTATGATACTGATAAAGGCTATATTTCAATTGGTACACTAGATGTTAAAAACAAAGAAATAATTGATAATCATATAATTATTGAAGAGAATTATCATCTTTCCTATCCATTTATATTGAAAATAAATGATGAGCTATATATTATTCCTGAATCATCATATAACAACACTATTGATTTATATAAATGTATAGAGTTCCCTTATAAATGGGAAAAAATAAGAACACTCATTGATAATATATCTGCTGTTGATACTAATTTAATTAATAAAAATGGGCTATGGTACCTATTAACCTCTGAAAAAAAAATGGGTGTATCATTTGGTGATGAACTTAGTCTATATGTTACAGACGACCCATTAAGTGGAACATTCTTACCTGTTATCGGGAATCCTGTTGTTCATGATATTTCAAAGTCACGGAACGCCGGTGAGATATTAAATAATATAAGAGTTTCTCAGGATTGTTCAAAACGTTATGGTTACCGCGTTAATTTTATGGAAATAAATGAGCTATCGGAGAATAATTATAGTGAACGTTATATAAAGAGCTTGAAATTACCATTTGGAACAATAGCAATGCATACCTATAATAGCGCAGAAAATATTGAAATAGTTGATTTAAAAATCATAAATATATCTCCTTATTTTTTGTATAGGAACCTTTGCAGAATAATTAAAAAACTAAAAACAAAAATATTAAAATGAAAAAATCGATAACCTTGAATGGTGTATATAAACTTGCTTTAAATTTATTC
