ENST00000382722.10 CACNA2D4

Information
Transcript ID
ENST00000382722.10
Genome
hg19
Position
chr12:1,901,129-2,027,818
Strand
-
CDS length
3,414
Amino acid length
1,138
Gene symbol
CACNA2D4
Gene type
protein-coding
Gene description
calcium voltage-gated channel auxiliary subunit alpha2delta 4
Gene Entrez Gene ID
93589
Variants

Display target variant


Search Word
Target data :
MGeND data only
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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
38 1,901,129 1,902,925
37 1,904,465 1,904,547
36 1,904,834 1,904,946
35 1,906,584 1,906,701
34 1,908,841 1,908,861
33 1,909,166 1,909,218
32 1,909,552 1,909,604
31 1,910,209 1,910,284
30 1,910,740 1,910,810
29 1,919,444 1,919,506
28 1,919,709 1,919,753
27 1,920,828 1,920,889
26 1,949,905 1,949,985
25 1,953,568 1,953,695
24 1,955,760 1,955,855
23 1,963,117 1,963,210
22 1,965,178 1,965,275
21 1,965,350 1,965,395
20 1,967,743 1,967,810
19 1,969,311 1,969,372
18 1,983,770 1,983,841
17 1,984,417 1,984,503
16 1,987,481 1,987,555
15 1,988,122 1,988,202
14 1,988,970 1,989,047
13 1,992,033 1,992,166
12 1,993,409 1,993,487
11 1,993,934 1,994,047
10 1,994,153 1,994,242
9 1,995,131 1,995,205
8 1,995,389 1,995,539
7 1,996,175 1,996,235
6 2,016,606 2,016,737
5 2,017,041 2,017,203
4 2,019,072 2,019,131
3 2,022,189 2,022,305
2 2,024,020 2,024,101
1 2,027,413 2,027,818
CDS
Exon number Type Start Stop
38 CDS 1,902,821 1,902,925
37 CDS 1,904,465 1,904,547
36 CDS 1,904,834 1,904,946
35 CDS 1,906,584 1,906,701
34 CDS 1,908,841 1,908,861
33 CDS 1,909,166 1,909,218
32 CDS 1,909,552 1,909,604
31 CDS 1,910,209 1,910,284
30 CDS 1,910,740 1,910,810
29 CDS 1,919,444 1,919,506
28 CDS 1,919,709 1,919,753
27 CDS 1,920,828 1,920,889
26 CDS 1,949,905 1,949,985
25 CDS 1,953,568 1,953,695
24 CDS 1,955,760 1,955,855
23 CDS 1,963,117 1,963,210
22 CDS 1,965,178 1,965,275
21 CDS 1,965,350 1,965,395
20 CDS 1,967,743 1,967,810
19 CDS 1,969,311 1,969,372
18 CDS 1,983,770 1,983,841
17 CDS 1,984,417 1,984,503
16 CDS 1,987,481 1,987,555
15 CDS 1,988,122 1,988,202
14 CDS 1,988,970 1,989,047
13 CDS 1,992,033 1,992,166
12 CDS 1,993,409 1,993,487
11 CDS 1,993,934 1,994,047
10 CDS 1,994,153 1,994,242
9 CDS 1,995,131 1,995,205
8 CDS 1,995,389 1,995,539
7 CDS 1,996,175 1,996,235
6 CDS 2,016,606 2,016,737
5 CDS 2,017,041 2,017,203
4 CDS 2,019,072 2,019,131
3 CDS 2,022,189 2,022,305
2 CDS 2,024,020 2,024,101
1 CDS 2,027,413 2,027,639
Other genome
Genome Chromosome Start End Links
hg38 chr12 1,791,963 1,918,652 Link
CDS sequence
ATGGTCTGTGGCTGCTCTGCCCTCCTTCCCCTCCCCAACCCCAGGCCCACCATGCCTGCAACTCCCAACTTCCTCGCAAACCCCAGCTCCAGCAGCCGCTGGATTCCCCTCCAGCCAATGCCCGTGGCCTGGGCCTTTGTGCAGAAGACCTCGGCCCTCCTGTGGCTGCTGCTTCTAGGCACCTCCCTGTCCCCTGCGTGGGGACAGGCCAAGATTCCTCTGGAAACAGTGAAGCTATGGGCTGACACCTTCGGCGGGGACCTGTATAACACTGTGACCAAATACTCAGGCTCTCTCTTGCTGCAGAAGAAGTACAAGGATGTGGAGTCCAGTCTGAAGATCGAGGAGGTGGATGGCTTGGAGCTGGTGAGGAAGTTCTCAGAGGACATGGAGAACATGCTGCGGAGGAAAGTCGAGGCGGTCCAGAATCTGGTGGAAGCTGCCGAGGAGGCCGACCTGAACCACGAATTCAATGAATCCCTGGTGTTCGACTATTACAACTCGGTCCTGATCAACGAGAGGGACGAGAAGGGCAACTTCGTGGAGCTGGGCGCCGAGTTCCTCCTGGAGTCCAATGCTCACTTCAGCAACCTGCCGGTGAACACCTCCATCAGCAGCGTGCAGCTGCCCACCAACGTGTACAACAAAGACCCAGATATTTTAAATGGAGTCTACATGTCTGAAGCCTTGAATGCTGTCTTCGTGGAGAACTTCCAGAGAGACCCAACGTTGACCTGGCAATATTTTGGCAGTGCAACTGGATTCTTCAGGATCTATCCAGGTATAAAATGGACACCTGATGAGAATGGAGTCATTACTTTTGACTGCCGAAACCGCGGCTGGTACATTCAAGCTGCTACTTCTCCCAAGGACATAGTGATTTTGGTGGACGTGAGCGGCAGTATGAAGGGGCTGAGGATGACTATTGCCAAGCACACCATCACCACCATCTTGGACACCCTGGGGGAGAATGACTTCATTAATATCATAGCGTACAATGACTACGTCCATTACATCGAGCCTTGTTTTAAAGGGATCCTCGTCCAGGCGGACCGAGACAATCGAGAGCATTTCAAACTGCTGGTGGAGGAGTTGATGGTCAAAGGTGTGGGGGTCGTGGACCAAGCCCTGAGAGAAGCCTTCCAGATCCTGAAGCAGTTCCAAGAGGCCAAGCAAGGAAGCCTCTGCAACCAGGCCATCATGCTCATCAGCGACGGCGCCGTGGAGGACTACGAGCCGGTGTTTGAGAAGTATAACTGGCCAGACTGTAAGGTCCGAGTTTTCACTTACCTCATTGGGAGAGAAGTGTCTTTTGCTGACCGCATGAAGTGGATTGCATGCAACAACAAAGGCTACTACACGCAGATCTCAACGCTGGCGGACACCCAGGAGAACGTGATGGAATACCTGCACGTGCTCAGCCGCCCCATGGTCATCAACCACGACCACGACATCATCTGGACAGAGGCCTACATGGACAGCAAGCTCCTCAGCTCGCAGGCTCAGAGCCTGACACTGCTCACCACTGTGGCCATGCCAGTCTTCAGCAAGAAGAACGAAACGCGATCCCATGGCATTCTCCTGGGTGTGGTGGGCTCAGATGTGGCCCTGAGAGAGCTGATGAAGCTGGCGCCCCGGTACAAGCTTGGAGTGCACGGATACGCCTTTCTGAACACCAACAATGGCTACATCCTCTCCCATCCCGACCTCCGGCCCCTGTACAGAGAGGGGAAGAAACTAAAACCCAAACCTAACTACAACAGTGTGGATCTCTCCGAAGTGGAGTGGGAAGACCAGGCTGAATCTCTGAGAACAGCCATGATCAATAGGGAAACAGGTACTCTCTCGATGGATGTGAAGGTTCCGATGGATAAAGGGAAGCGAGTTCTTTTCCTGACCAATGACTACTTCTTCACGGACATCAGCGACACCCCTTTCAGTTTGGGGGTGGTGCTGTCCCGGGGCCACGGAGAATACATCCTTCTGGGGAACACGTCTGTGGAAGAAGGCCTGCATGACTTGCTTCACCCAGACCTGGCCCTGGCCGGTGACTGGATCTACTGCATCACAGATATTGACCCAGACCACCGGAAGCTCAGCCAGCTAGAGGCCATGATCCGCTTCCTCACCAGGAAGGACCCAGACCTGGAGTGTGACGAGGAGCTGGTCCGGGAGGTGCTGTTTGACGCGGTGGTGACAGCCCCCATGGAAGCCTACTGGACAGCGCTGGCCCTCAACATGTCCGAGGAGTCTGAACACGTGGTGGACATGGCCTTCCTGGGCACCCGGGCTGGCCTCCTGAGAAGCAGCTTGTTCGTGGGCTCCGAGAAGGTCTCCGACAGGAAGTTCCTGACACCTGAGGACGAGGCCAGCGTGTTCACCCTGGACCGCTTCCCGCTGTGGTACCGCCAGGCCTCAGAGCATCCTGCTGGCAGCTTCGTCTTCAACCTCCGCTGGGCAGAAGGACCAGAAAGTGCGGGTGAACCCATGGTGGTGACGGCAAGCACAGCTGTGGCGGTGACCGTGGACAAGAGGACAGCCATTGCTGCAGCCGCGGGCGTCCAAATGAAGCTGGAATTCCTCCAGCGCAAATTCTGGGCGGCAACGCGGCAGTGCAGCACTGTGGATGGGCCGTGCACACAGAGCTGCGAGGACAGTGATCTGGACTGCTTCGTCATCGACAACAACGGGTTCATTCTGATCTCCAAGAGGTCCCGAGAGACGGGAAGATTTCTGGGGGAGGTGGATGGTGCTGTCCTGACCCAGCTGCTCAGCATGGGGGTGTTCAGCCAAGTGACTATGTATGACTATCAGGCCATGTGCAAACCCTCGAGTCACCACCACAGTGCAGCCCAGCCCCTGGTCAGCCCAATTTCTGCCTTCTTGACGGCGACCAGGTGGCTGCTGCAGGAGCTGGTGCTGTTCCTGCTGGAGTGGAGTGTCTGGGGCTCCTGGTACGACAGAGGGGCCGAGGCCAAAAGTGTCTTCCATCACTCCCACAAACACAAGAAGCAGGACCCGCTGCAGCCCTGCGACACGGAGTACCCCGTGTTCGTGTACCAGCCGGCCATCCGGGAGGCCAACGGGATCGTGGAGTGCGGGCCCTGCCAGAAGGTATTTGTGGTGCAGCAGATTCCCAACAGTAACCTCCTCCTCCTGGTGACAGACCCCACCTGTGACTGCAGCATCTTCCCACCAGTGCTGCAGGAGGCGACAGAAGTCAAATATAATGCCTCTGTCAAATGTGACCGGATGCGCTCCCAGAAGCTCCGCCGGCGACCAGACTCCTGCCACGCCTTCCATCCAGAGGAGAATGCCCAGGACTGCGGCGGCGCCTCGGACACCTCAGCCTCGCCGCCCCTACTCCTGCTGCCTGTGTGTGCCTGGGGGCTACTGCCCCAACTCCTGCGGTGA
Amino sequence
MVCGCSALLPLPNPRPTMPATPNFLANPSSSSRWIPLQPMPVAWAFVQKTSALLWLLLLGTSLSPAWGQAKIPLETVKLWADTFGGDLYNTVTKYSGSLLLQKKYKDVESSLKIEEVDGLELVRKFSEDMENMLRRKVEAVQNLVEAAEEADLNHEFNESLVFDYYNSVLINERDEKGNFVELGAEFLLESNAHFSNLPVNTSISSVQLPTNVYNKDPDILNGVYMSEALNAVFVENFQRDPTLTWQYFGSATGFFRIYPGIKWTPDENGVITFDCRNRGWYIQAATSPKDIVILVDVSGSMKGLRMTIAKHTITTILDTLGENDFINIIAYNDYVHYIEPCFKGILVQADRDNREHFKLLVEELMVKGVGVVDQALREAFQILKQFQEAKQGSLCNQAIMLISDGAVEDYEPVFEKYNWPDCKVRVFTYLIGREVSFADRMKWIACNNKGYYTQISTLADTQENVMEYLHVLSRPMVINHDHDIIWTEAYMDSKLLSSQAQSLTLLTTVAMPVFSKKNETRSHGILLGVVGSDVALRELMKLAPRYKLGVHGYAFLNTNNGYILSHPDLRPLYREGKKLKPKPNYNSVDLSEVEWEDQAESLRTAMINRETGTLSMDVKVPMDKGKRVLFLTNDYFFTDISDTPFSLGVVLSRGHGEYILLGNTSVEEGLHDLLHPDLALAGDWIYCITDIDPDHRKLSQLEAMIRFLTRKDPDLECDEELVREVLFDAVVTAPMEAYWTALALNMSEESEHVVDMAFLGTRAGLLRSSLFVGSEKVSDRKFLTPEDEASVFTLDRFPLWYRQASEHPAGSFVFNLRWAEGPESAGEPMVVTASTAVAVTVDKRTAIAAAAGVQMKLEFLQRKFWAATRQCSTVDGPCTQSCEDSDLDCFVIDNNGFILISKRSRETGRFLGEVDGAVLTQLLSMGVFSQVTMYDYQAMCKPSSHHHSAAQPLVSPISAFLTATRWLLQELVLFLLEWSVWGSWYDRGAEAKSVFHHSHKHKKQDPLQPCDTEYPVFVYQPAIREANGIVECGPCQKVFVVQQIPNSNLLLLVTDPTCDCSIFPPVLQEATEVKYNASVKCDRMRSQKLRRRPDSCHAFHPEENAQDCGGASDTSASPPLLLLPVCAWGLLPQLLR*