ENST00000265460.9 MYRF
Information
- Transcript ID
- ENST00000265460.9
- Genome
- hg38
- Position
- chr11:61,755,389-61,788,517
- Strand
- +
- CDS length
- 3,336
- Amino acid length
- 1,112
- Gene symbol
- MYRF
- Gene type
- protein-coding
- Gene description
- myelin regulatory factor
- Gene Entrez Gene ID
- 745
Variants
Display target variant
Search Word
| Target data | : |
MGeND data only
|
| Category | : |
|
| Search word | : | |
| Filtering | : |
| Variant name | Gene | AA change | CDS | Japanese frequency |
TogoVar | MGeND | Genome | ClinVar | CIViC evidence | DisGeNET entry | COSMIC occurrence |
Prediction | |||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Entry | Origin | Type | Annotation | Entry | Origin | Annotation | |||||||||||
Search Word
| Target data | : |
MGeND data only
|
| Category | : |
|
| Search word | : | |
| Filtering | : |
| Name | MGeND | Type | Genome | Size | Chromosome | Start | Stop | Ref | Alt | ClinVar | Origin | Entry | CIViC evidence | DisGeNET entry | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Entry | Origin | Type | Annotation | ||||||||||||||
Search Word
| Target data | : |
MGeND data only
|
| Category | : |
|
| Search word | : | |
| Filtering | : |
| Name | MGeND | Type | Genome | Gene symbol | Chromosome | Genomic start | Genomic stop | Strand | Ref | Alt | ClinVar | Origin | Entry | CIViC evidence | DisGeNET entry | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Entry | Origin | Type | Annotation | |||||||||||||||
Exon
| Exon number | Start | Stop |
|---|---|---|
| 1 | 61,755,389 | 61,755,442 |
| 2 | 61,765,625 | 61,765,712 |
| 3 | 61,765,958 | 61,766,221 |
| 4 | 61,769,260 | 61,769,321 |
| 5 | 61,770,246 | 61,770,525 |
| 6 | 61,771,500 | 61,771,750 |
| 7 | 61,771,829 | 61,771,952 |
| 8 | 61,773,967 | 61,774,162 |
| 9 | 61,776,056 | 61,776,132 |
| 10 | 61,776,322 | 61,776,432 |
| 11 | 61,776,787 | 61,776,877 |
| 12 | 61,777,264 | 61,777,464 |
| 13 | 61,777,734 | 61,777,845 |
| 14 | 61,778,380 | 61,778,489 |
| 15 | 61,779,263 | 61,779,423 |
| 16 | 61,779,498 | 61,779,570 |
| 17 | 61,779,842 | 61,779,930 |
| 18 | 61,780,222 | 61,780,290 |
| 19 | 61,780,957 | 61,781,045 |
| 20 | 61,781,138 | 61,781,329 |
| 21 | 61,781,573 | 61,781,824 |
| 22 | 61,783,513 | 61,783,600 |
| 23 | 61,783,851 | 61,783,925 |
| 24 | 61,784,280 | 61,784,385 |
| 25 | 61,785,800 | 61,785,874 |
| 26 | 61,786,063 | 61,788,517 |
CDS
| Exon number | Type | Start | Stop |
|---|---|---|---|
| 1 | CDS | 61,755,424 | 61,755,442 |
| 2 | CDS | 61,765,625 | 61,765,712 |
| 3 | CDS | 61,765,958 | 61,766,221 |
| 4 | CDS | 61,769,260 | 61,769,321 |
| 5 | CDS | 61,770,246 | 61,770,525 |
| 6 | CDS | 61,771,500 | 61,771,750 |
| 7 | CDS | 61,771,829 | 61,771,952 |
| 8 | CDS | 61,773,967 | 61,774,162 |
| 9 | CDS | 61,776,056 | 61,776,132 |
| 10 | CDS | 61,776,322 | 61,776,432 |
| 11 | CDS | 61,776,787 | 61,776,877 |
| 12 | CDS | 61,777,264 | 61,777,464 |
| 13 | CDS | 61,777,734 | 61,777,845 |
| 14 | CDS | 61,778,380 | 61,778,489 |
| 15 | CDS | 61,779,263 | 61,779,423 |
| 16 | CDS | 61,779,498 | 61,779,570 |
| 17 | CDS | 61,779,842 | 61,779,930 |
| 18 | CDS | 61,780,222 | 61,780,290 |
| 19 | CDS | 61,780,957 | 61,781,045 |
| 20 | CDS | 61,781,138 | 61,781,329 |
| 21 | CDS | 61,781,573 | 61,781,824 |
| 22 | CDS | 61,783,513 | 61,783,600 |
| 23 | CDS | 61,783,851 | 61,783,925 |
| 24 | CDS | 61,784,280 | 61,784,385 |
| 25 | CDS | 61,785,800 | 61,785,874 |
| 26 | CDS | 61,786,063 | 61,786,143 |
Other genome
| Genome | Chromosome | Start | End | Links |
|---|---|---|---|---|
| hg19 | chr11 | 61,522,861 | 61,555,989 | Link |
CDS sequence
ATGCACTGGCTTCCAGCAGGCCACGACATCAACGGTGCCCTGGAGCCCTCCAACATAGACACCAGCATCCTGGAGGAGTACATCAGCAAGGAGGATGCCTCCGACCTCTGCTTCCCTGACATCTCTGCTCCAGCCAGCTCGGCCTCCTACTCCCACGGGCAGCCTGCGATGCCTGGCTCCAGCGGGGTCCACCACCTGAGCCCCCCTGGGGGTGGACCCTCCCCGGGGCGCCATGGTCCCCTCCCACCCCCGGGCTACGGCACCCCGCTGAACTGCAACAACAACAACGGCATGGGCGCTGCCCCCAAGCCCTTCCCGGGGGGCACCGGGCCCCCCATCAAGGCTGAGCCCAAGGCTCCCTATGCCCCAGGCACACTGCCGGACTCTCCCCCAGACTCGGGCTCCGAGGCCTACTCCCCCCAGCAGGTGAATGAGCCCCACCTCCTGCGCACGATAACCCCTGAGACACTGTGCCACGTGGGAGTGCCCTCCCGCCTGGAGCATCCGCCCCCACCTCCAGCCCACTTGCCAGGCCCCCCGCCACCCCCACCACCCCCACCTCACTACCCTGTCCTGCAGCGGGATCTGTACATGAAGGCCGAGCCCCCGATCCCCCACTACGCTGCCATGGGGCAGGGGCTGGTGCCCACTGATCTTCACCACACCCAGCAGTCCCAGATGCTGCACCAGCTCCTGCAGCAGCACGGAGCTGAGCTCCCTACACACCCCTCCAAGAAGAGGAAGCACTCTGAATCCCCCCCCAGCACCCTCAATGCCCAGATGCTGAATGGAATGATCAAACAGGAGCCTGGGACCGTGACAGCCCTGCCTCTGCACCCCACTCGAGCCCCATCGCCACCCTGGCCTCCCCAGGGTCCGCTCTCCCCGGGCCCTGGTTCCTTGCCTCTCAGCATTGCCCGTGTCCAGACACCGCCTTGGCACCCGCCAGGTGCCCCCTCCCCAGGCCTCCTGCAGGACAGTGACAGCCTCAGTGGCTCCTACCTGGACCCCAACTACCAGTCCATCAAGTGGCAGCCTCATCAGCAGAACAAGTGGGCGACCCTGTACGATGCTAACTACAAGGAGCTGCCCATGCTCACCTACCGCGTGGATGCGGACAAGGGCTTCAACTTTTCGGTGGGCGACGACGCCTTTGTGTGCCAGAAGAAGAACCACTTCCAGGTGACAGTGTACATCGGCATGCTGGGCGAGCCCAAGTACGTCAAGACGCCCGAGGGCCTCAAGCCCCTCGACTGCTTCTATCTGAAGCTGCACGGAGTGAAGCTGGAGGCCCTGAACCAGTCCATTAACATCGAGCAGTCCCAGTCAGACCGGAGCAAGCGGCCCTTCAACCCGGTCACGGTCAATCTGCCCCCTGAGCAGGTCACGAAGGTGACTGTGGGGCGGCTGCACTTCAGCGAGACCACCGCTAACAACATGCGTAAGAAGGGCAAGCCCAACCCGGACCAGAGGTACTTCATGCTGGTGGTGGCCCTCCAGGCTCATGCACAGAACCAGAACTACACGCTGGCCGCCCAGATCTCAGAGCGCATCATTGTGCGGGCCTCCAACCCAGGCCAGTTCGAGAGCGACAGCGATGTGTTGTGGCAGCGGGCACAGGTGCCCGACACCGTCTTCCACCACGGCCGCGTGGGCATCAACACAGACCGGCCGGATGAGGCGCTGGTTGTGCACGGGAATGTCAAGGTCATGGGCTCGCTTATGCACCCCTCCGACCTGCGCGCCAAGGAACACGTGCAGGAGGTGGACACCACCGAGCAATTGAAGAGGATCTCGCGCATGCGGCTGGTGCACTACAGATACAAGCCCGAGTTCGCCGCCAGCGCGGGCATCGAGGCCACCGCGCCAGAGACAGGTGTCATCGCTCAGGAGGTGAAGGAGATCTTGCCTGAGGCTGTGAAAGACACCGGAGACATGGTCTTTGCCAATGGGAAAACCATAGAGAACTTCCTGGTGGTGAACAAGGAGCGCATCTTCATGGAGAACGTAGGGGCCGTGAAGGAGCTGTGCAAGCTGACAGACAACCTGGAGACGCGCATTGATGAGCTGGAGCGCTGGAGCCACAAGCTGGCCAAGCTGCGGCGGCTCGACAGCCTCAAGTCCACCGGCAGCTCGGGCGCCTTCAGCCATGCAGGGAGCCAGTTCAGTCGGGCGGGCAGCGTCCCCCACAAGAAGAGGCCCCCCAAGGTGGCCAGCAAGTCATCGTCCGTGGTTCCGGACCAGGCCTGCATCAGCCAGCGCTTCCTGCAGGGAACCATCATTGCCCTGGTGGTGGTCATGGCCTTCAGCGTGGTGTCCATGTCCACACTGTACGTGCTGAGCCTGCGCACAGAGGAGGACCTGGTAGACACTGATGGCAGGTCCAGCCAGAGCTTTGGGACCACGCAGCTCCGACAGTCCCCCTTGACCACGGGGCTACCAGGCATACAGCCCTCTTTGCTGCTGGTGACCACCAGCCTCACCAGCTCGGCCCCAGGTTCTGCTGTCCGCACCTTGGACATGTGTTCCAGCCACCCCTGCCCTGTCATCTGCTGTTCCTCACCCACTACCAACCCTACCACTGGTCCTAGTCTTGGCCCCAGCTTTAACCCTGGCCATGTTCTCAGCCCAAGTCCCAGCCCCAGCACCAACCGCTCAGGCCCCAGCCAGATGGCCCTTCTGCCAGTCACCAACATCAGAGCCAAGTCCTGGGGTCTTTCAGTCAATGGCATTGGCCACTCCAAGCATCACAAGAGTCTGGAGCCTCTGGCCAGCCCTGCAGTCCCCTTCCCTGGGGGGCAGGGCAAAGCCAAGAACAGTCCCAGCCTTGGTTTCCATGGCCGGGCCCGCCGAGGGGCCCTCCAGTCCAGCGTGGGCCCTGCTGAGCCCACCTGGGCCCAGGGCCAGTCAGAGCCAGTGCCCTCCCTGACCTCCATCCAGGTGCTGGAGAATTCGATGTCCATCACCTCCCAGTACTGTGCTCCAGGGGATGCCTGCAGGCCTGGGAACTTCACCTACCACATCCCTGTCAGTAGTGGCACCCCACTGCACCTCAGCCTGACTCTGCAGATGAACTCCTCCTCCCCCGTGTCTGTGGTGCTGTGCAGCCTGAGGTCAAAGGAGGAACCATGTGAGGAGGGGAGCCTTCCACAGAGTCTCCACACCCACCAGGACACCCAGGGCACCTCTCACCGGTGGCCAATAACCATCCTGTCCTTCCGTGAATTCACCTACCACTTCCGGGTGGCACTGCTGGGTCAGGCCAACTGCAGTTCAGAGGCTCTCGCCCAGCCAGCCACAGACTACCACTTCCACTTCTACCGCCTGTGTGACTGA
Amino sequence
MHWLPAGHDINGALEPSNIDTSILEEYISKEDASDLCFPDISAPASSASYSHGQPAMPGSSGVHHLSPPGGGPSPGRHGPLPPPGYGTPLNCNNNNGMGAAPKPFPGGTGPPIKAEPKAPYAPGTLPDSPPDSGSEAYSPQQVNEPHLLRTITPETLCHVGVPSRLEHPPPPPAHLPGPPPPPPPPPHYPVLQRDLYMKAEPPIPHYAAMGQGLVPTDLHHTQQSQMLHQLLQQHGAELPTHPSKKRKHSESPPSTLNAQMLNGMIKQEPGTVTALPLHPTRAPSPPWPPQGPLSPGPGSLPLSIARVQTPPWHPPGAPSPGLLQDSDSLSGSYLDPNYQSIKWQPHQQNKWATLYDANYKELPMLTYRVDADKGFNFSVGDDAFVCQKKNHFQVTVYIGMLGEPKYVKTPEGLKPLDCFYLKLHGVKLEALNQSINIEQSQSDRSKRPFNPVTVNLPPEQVTKVTVGRLHFSETTANNMRKKGKPNPDQRYFMLVVALQAHAQNQNYTLAAQISERIIVRASNPGQFESDSDVLWQRAQVPDTVFHHGRVGINTDRPDEALVVHGNVKVMGSLMHPSDLRAKEHVQEVDTTEQLKRISRMRLVHYRYKPEFAASAGIEATAPETGVIAQEVKEILPEAVKDTGDMVFANGKTIENFLVVNKERIFMENVGAVKELCKLTDNLETRIDELERWSHKLAKLRRLDSLKSTGSSGAFSHAGSQFSRAGSVPHKKRPPKVASKSSSVVPDQACISQRFLQGTIIALVVVMAFSVVSMSTLYVLSLRTEEDLVDTDGRSSQSFGTTQLRQSPLTTGLPGIQPSLLLVTTSLTSSAPGSAVRTLDMCSSHPCPVICCSSPTTNPTTGPSLGPSFNPGHVLSPSPSPSTNRSGPSQMALLPVTNIRAKSWGLSVNGIGHSKHHKSLEPLASPAVPFPGGQGKAKNSPSLGFHGRARRGALQSSVGPAEPTWAQGQSEPVPSLTSIQVLENSMSITSQYCAPGDACRPGNFTYHIPVSSGTPLHLSLTLQMNSSSPVSVVLCSLRSKEEPCEEGSLPQSLHTHQDTQGTSHRWPITILSFREFTYHFRVALLGQANCSSEALAQPATDYHFHFYRLCD*