ENST00000545232.6 BLTP3B
Information
- Transcript ID
- ENST00000545232.6
- Genome
- hg19
- Position
- chr12:100,430,921-100,486,726
- Strand
- -
- CDS length
- 3,345
- Amino acid length
- 1,115
- Gene symbol
- BLTP3B
- Gene type
- protein-coding
- Gene description
- bridge-like lipid transfer protein family member 3B
- Gene Entrez Gene ID
- 23074
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 |
---|---|---|
15 | 100,430,921 | 100,431,533 |
14 | 100,433,374 | 100,433,567 |
13 | 100,441,308 | 100,441,416 |
12 | 100,441,721 | 100,441,974 |
11 | 100,443,946 | 100,444,096 |
10 | 100,444,857 | 100,444,999 |
9 | 100,451,349 | 100,451,524 |
8 | 100,451,807 | 100,453,311 |
7 | 100,453,628 | 100,453,821 |
6 | 100,466,450 | 100,466,591 |
5 | 100,476,794 | 100,476,912 |
4 | 100,478,254 | 100,478,436 |
3 | 100,480,053 | 100,480,136 |
2 | 100,482,693 | 100,482,873 |
1 | 100,486,687 | 100,486,726 |
CDS
Exon number | Type | Start | Stop |
---|---|---|---|
15 | CDS | 100,431,414 | 100,431,533 |
14 | CDS | 100,433,374 | 100,433,567 |
13 | CDS | 100,441,308 | 100,441,416 |
12 | CDS | 100,441,721 | 100,441,974 |
11 | CDS | 100,443,946 | 100,444,096 |
10 | CDS | 100,444,857 | 100,444,999 |
9 | CDS | 100,451,349 | 100,451,524 |
8 | CDS | 100,451,807 | 100,453,311 |
7 | CDS | 100,453,628 | 100,453,821 |
6 | CDS | 100,466,450 | 100,466,591 |
5 | CDS | 100,476,794 | 100,476,912 |
4 | CDS | 100,478,254 | 100,478,436 |
3 | CDS | 100,480,053 | 100,480,107 |
Other genome
Genome | Chromosome | Start | End | Links |
---|---|---|---|---|
hg38 | chr12 | 100,037,143 | 100,092,948 | Link |
CDS sequence
ATGCAACTCTCTTTTACACAGCTAACTATAGATTATTATCCTTATCATAAAGCAGGAGATAGTTGTAATCATTGGATGTATTTTAGTGATGCAACCAAAACAAAAAATGGATGGGCCAATGAGTTATTGCATGAATTTGAGTGCAACGTTGAAATGCTTAAACAGGCTGTGAAGGATCATAATGTAGGTTCACCTCCTAAATCCCCAACACATGCCTCTCCCCAGCACACACAAACAGAGAAGGACTACCCTCTGAAAGGGACATGCAGAACACCTTCAGTATTATCTCAACAATCAAAAGCTAAGCTAATGTCTAGTTCTGTTGTGGTTAGACTTGCAGATTTCAATATATACCAGGTCTCTACAGCGGAACAATGTCGTTCTTCCCCCAAAAGCATGATTTGCTGCAATAAAAAATCCCTATATCTTCCACAAGAAATGTCAGCTGTCTATATAGAATTCACAGAATATTACTATCCAGATGGAAAGGATTTTCCAATTCCATCTCCCAACCTCTATAGCCAGCTGAATGCACTACAGTTTACTGTGGATGAAAGAAGCATTCTATGGTTAAATCAATTTCTGTTGGATTTAAAACAGAGTCTTAATCAGTTCATGGCTGTGTACAAGTTGAATGACAATTCAAAATCTGACGAGCATGTTGATGTTCGAGTTGATGGCTTAATGCTAAAGTTTGTCATTCCTTCTGAAGTGAAATCTGAATGTCATCAAGATCAGCCACGTGCAATTTCTATTCAGAGTTCTGAAATGATTGCCACAAATACAAGGCACTGTCCAAACTGTCGACATTCTGACCTAGAAGCTTTGTTTCAAGACTTTAAAGATTGTGATTTTTTTAGTAAAACATATACCAGCTTCCCCAAATCTTGTGACAATTTTAATCTTCTACATCCAATTTTCCAGAGACATGCTCATGAACAAGATACCAAAATGCATGAAATTTATAAAGGAAATATTACTCCCCAATTGAATAAAAACACTCTTAAAACTTCTGCTGCCACGGATGTTTGGGCTGTGTACTTTTCTCAATTTTGGATAGATTATGAAGGGATGAAAAGTGGAAAAGGACGGCCAATAAGTTTTGTAGACTCATTCCCTCTTTCCATTTGGATTTGTCAACCAACAAGATATGCAGAGTCACAAAAAGAGCCGCAGACTTGTAATCAGGTATCTCTAAATACATCACAAAGTGAATCTAGTGATCTGGCTGGCCGATTGAAGCGGAAGAAGCTCTTGAAGGAGTATTATAGTACAGAGTCTGAGCCTTTGACAAATGGTGGTCAGAAGCCTTCTTCATCAGATACATTTTTCAGATTTTCCCCTTCCTCGTCAGAGGCAGATATTCATCTCCTAGTTCATGTTCATAAACATGTCAGTATGCAGATTAATCACTACCAGTATCTGCTTCTACTTTTCCTGCATGAGTCACTTATCCTGCTTTCAGAGAACTTAAGGAAAGATGTAGAAGCTGTAACTGGCAGTCCTGCTAGTCAGACATCCATTTGTATTGGAATTTTACTTAGAAGTGCAGAACTGGCTCTTTTGCTCCATCCAGTGGATCAAGCAAATACTCTTAAGTCTCCTGTTTCTGAAAGTGTGAGCCCAGTGGTACCTGATTATTTGCCTACAGAAAATGGGGATTTTTTGTCTTCAAAAAGAAAACAAATTAGTAGGGATATAAATAGAATTAGAAGTGTAACTGTTAATCATATGTCAGACAACAGATCTATGAGTGTTGACCTTAGCCATATCCCTTTAAAGGATCCTTTGCTTTTTAAATCAGCTAGTGATACAAATCTGCAAAAAGGCATTTCTTTTATGGACTATTTATCAGATAAACATTTAGGGAAAATAAGTGAAGATGAAAGTAGTGGACTTGTTTACAAAAGTGGCTCAGGAGAAATTGGATCAGAAACAAGTGACAAAAAGGATTCATTTTATACAGATTCAAGTAGTATCTTAAACTACAGAGAAGATTCGAATATACTTTCATTTGATAGTGATGGTAATCAAAACATACTTTCAAGTACTTTAACTAGTAAAGGAAATGAAACCATAGAGTCCATCTTTAAAGCTGAAGATTTGCTTCCAGAAGCAGCTTCACTCTCTGAAAACCTGGATATCAGTAAAGAAGAGACCCCCCCAGTTAGAACACTTAAATCACAGTCATCTTTAAGTGGAAAGCCTAAGGAACGTTGCCCACCCAACCTGGCTCCTCTCTGTGTTTCTTATAAGAATATGAAAAGAAGCTCTTCACAAATGTCATTGGATACCATTTCACTTGACAGCATGATATTGGAAGAACAGTTATTAGAAAGTGATGGAAGTGATAGCCATATGTTTTTGGAAAAAGGAAATAAAAAGAACTCAACTACAAATTACAGGGGCACAGCAGAAAGTGTGAATGCTGGTGCAAACCTACAGAATTATGGTGAAACTTCTCCAGATGCCATCAGTACAAATTCAGAGGGTGCTCAGGAAAATCATGATGACCTGATGTCCGTTGTGGTATTTAAAATTACTGGTGTTAATGGGGAAATTGACATCCGAGGGGAAGATACAGAAATCTGTCTTCAAGTGAACCAGGTGACACCAGACCAATTAGGCAATATCAGCCTTCGGCATTACCTTTGTAATCGTCCAGTTGGTTCCGATCAGAAAGCTGTAATTCATTCCAAATCCTCTCCTGAGATTTCTCTGAGATTTGAAAGTGGGCCTGGTGCTGTAATACACTCTTTACTTGCAGAAAAAAATGGATTTCTGCAGTGCCACATAGAAAACTTCAGCACTGAGTTTCTTACATCTTCTCTTATGAATATTCAACATTTTTTGGAAGATGAAACTGTTGCAACAGTAATGCCAATGAAGATACAAGTTTCTAACACGAAAATAAATTTAAAAGATGATAGTCCCCGGAGTAGTACAGTATCCCTTGAACCAGCTCCTGTAACTGTACATATTGATCATCTTGTGGTAGAGAGAAGTGACGATGGCTCTTTTCATATCAGAGATTCTCACATGCTTAACACTGGAAATGATTTGAAAGAAAATGTCAAAAGCGATTCAGTGCTGCTGACCAGTGGAAAGTATGATCTGAAGAAACAACGCAGTGTCACGCAAGCCACTCAGACAAGCCCAGGGGTTCCTTGGCCTTCTCAGTCAGCTAACTTTCCTGAGTTCTCCTTTGACTTCACTAGGGAACAGCTCATGGAAGAGAATGAATCTCTTAAACAGGAACTGGCTAAAGCTAAAATGGCTCTTGCAGAGGCTCACTTGGAAAAAGATGCTCTTCTTCATCATATAAAGAAGATGACAGTTGAATAG
Amino sequence
MQLSFTQLTIDYYPYHKAGDSCNHWMYFSDATKTKNGWANELLHEFECNVEMLKQAVKDHNVGSPPKSPTHASPQHTQTEKDYPLKGTCRTPSVLSQQSKAKLMSSSVVVRLADFNIYQVSTAEQCRSSPKSMICCNKKSLYLPQEMSAVYIEFTEYYYPDGKDFPIPSPNLYSQLNALQFTVDERSILWLNQFLLDLKQSLNQFMAVYKLNDNSKSDEHVDVRVDGLMLKFVIPSEVKSECHQDQPRAISIQSSEMIATNTRHCPNCRHSDLEALFQDFKDCDFFSKTYTSFPKSCDNFNLLHPIFQRHAHEQDTKMHEIYKGNITPQLNKNTLKTSAATDVWAVYFSQFWIDYEGMKSGKGRPISFVDSFPLSIWICQPTRYAESQKEPQTCNQVSLNTSQSESSDLAGRLKRKKLLKEYYSTESEPLTNGGQKPSSSDTFFRFSPSSSEADIHLLVHVHKHVSMQINHYQYLLLLFLHESLILLSENLRKDVEAVTGSPASQTSICIGILLRSAELALLLHPVDQANTLKSPVSESVSPVVPDYLPTENGDFLSSKRKQISRDINRIRSVTVNHMSDNRSMSVDLSHIPLKDPLLFKSASDTNLQKGISFMDYLSDKHLGKISEDESSGLVYKSGSGEIGSETSDKKDSFYTDSSSILNYREDSNILSFDSDGNQNILSSTLTSKGNETIESIFKAEDLLPEAASLSENLDISKEETPPVRTLKSQSSLSGKPKERCPPNLAPLCVSYKNMKRSSSQMSLDTISLDSMILEEQLLESDGSDSHMFLEKGNKKNSTTNYRGTAESVNAGANLQNYGETSPDAISTNSEGAQENHDDLMSVVVFKITGVNGEIDIRGEDTEICLQVNQVTPDQLGNISLRHYLCNRPVGSDQKAVIHSKSSPEISLRFESGPGAVIHSLLAEKNGFLQCHIENFSTEFLTSSLMNIQHFLEDETVATVMPMKIQVSNTKINLKDDSPRSSTVSLEPAPVTVHIDHLVVERSDDGSFHIRDSHMLNTGNDLKENVKSDSVLLTSGKYDLKKQRSVTQATQTSPGVPWPSQSANFPEFSFDFTREQLMEENESLKQELAKAKMALAEAHLEKDALLHHIKKMTVE*