Information

Transcript ID: ENST00000393217.7
Genome: hg38
Position: chr12:85,036,351-85,245,105
Strand: +
CDS length: 5,169
Amino acid length: 1,723
Gene symbol: LRRIQ1
Gene type: protein-coding
Gene description: leucine rich repeats and IQ motif containing 1
Gene Entrez Gene ID: 84125

Variants

Display target variant

MGeND data only All data

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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
Variant name	Gene	AA change	CDS	Japanese frequency	TogoVar	Entry	Origin	Type	Annotation	Genome	Entry	Origin	Annotation	CIViC evidence	DisGeNET entry	COSMIC occurrence	Prediction

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Target data	:	MGeND data only
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Name	MGeND				Type	Genome	Size	Chromosome	Start	Stop	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry
Name	Entry	Origin	Type	Annotation	Type	Genome	Size	Chromosome	Start	Stop	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry

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Target data	:	MGeND data only
Category	:
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Name	MGeND				Type	Genome	Gene symbol	Chromosome	Genomic start	Genomic stop	Strand	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry
Name	Entry	Origin	Type	Annotation	Type	Genome	Gene symbol	Chromosome	Genomic start	Genomic stop	Strand	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry

Exon

Exon number	Start	Stop
1	85,036,351	85,036,407
2	85,038,153	85,038,308
3	85,040,490	85,040,601
4	85,044,718	85,044,809
5	85,046,020	85,046,137
6	85,047,247	85,047,470
7	85,052,177	85,052,251
8	85,055,547	85,057,184
9	85,065,262	85,065,414
10	85,066,748	85,066,898
11	85,072,907	85,073,098
12	85,098,355	85,098,548
13	85,098,867	85,098,994
14	85,104,004	85,104,077
15	85,106,522	85,106,615
16	85,121,697	85,121,876
17	85,124,070	85,124,519
18	85,127,832	85,128,033
19	85,137,850	85,137,969
20	85,152,280	85,152,369
21	85,153,024	85,153,145
22	85,153,663	85,153,758
23	85,154,012	85,154,094
24	85,160,613	85,160,714
25	85,229,517	85,229,649
26	85,232,696	85,232,756
27	85,244,789	85,245,105

CDS

Exon number	Type	Start	Stop
2	CDS	85,038,177	85,038,308
3	CDS	85,040,490	85,040,601
4	CDS	85,044,718	85,044,809
5	CDS	85,046,020	85,046,137
6	CDS	85,047,247	85,047,470
7	CDS	85,052,177	85,052,251
8	CDS	85,055,547	85,057,184
9	CDS	85,065,262	85,065,414
10	CDS	85,066,748	85,066,898
11	CDS	85,072,907	85,073,098
12	CDS	85,098,355	85,098,548
13	CDS	85,098,867	85,098,994
14	CDS	85,104,004	85,104,077
15	CDS	85,106,522	85,106,615
16	CDS	85,121,697	85,121,876
17	CDS	85,124,070	85,124,519
18	CDS	85,127,832	85,128,033
19	CDS	85,137,850	85,137,969
20	CDS	85,152,280	85,152,369
21	CDS	85,153,024	85,153,145
22	CDS	85,153,663	85,153,758
23	CDS	85,154,012	85,154,094
24	CDS	85,160,613	85,160,714
25	CDS	85,229,517	85,229,649
26	CDS	85,232,696	85,232,756
27	CDS	85,244,789	85,244,941

Other genome

Genome	Chromosome	Start	End	Links
hg19	chr12	85,430,129	85,638,883	Link

CDS sequence

ATGGACGATGATGATGCAAAGCTCAAAGCAGAAATAGAAGCTGAATTGGATAAACTCAGCATTTCCTCCTTGGAAAAAGAAGACATTGAGAGTGATGCAAAATCAGAAACCCAGAGTGATGATAGTGATACAGATTCAGTTGAATTACCAGAATCAGTTCTTCACTGTATTAACATCATAAAGAACAGGAGTAAAGCTGTTGAAGAGCTCATTCTTCAGGACCTGGAAGATACTGATATTTTAAGCTGTAGTTATGGAGCAGTTTCTAATAATCATATGCATTTAAGAACAGGACTATCAACTGAATATGAAGAAAGTTCAGAGCAATTAATTAAGATATTATCTGAAATAGAAAAAGAAGAATTTATGAGAAGTAAAACCGATTGTGCCACTCCTGATTTTGTTCCTGAGCCTAGTCCTCATGACTTGCCTATGGATGAACATGTTTTACCAGATGATGCTGATATAAATTTTGGATACTGTGAAGTGGAAGAAAAATGTAGACAGTCTTTTGAGGCTTGGCAAGAGAAACAGAAGGAATTAGAAGATAAAGAGAAACAAACTCTCAAAGCTCAGAGGGATAGAGAAGAAAAACAATTTCAAGAAGAAGAAGAAAAGCGACATTGCTGGATGAAACAATTTAAAGTTGAAAAGAAGAAATTAGAGAACATTCAGAAGCAAGAACAGGACAAGATGAATGATGAACTCTATAAAGAAGAGAAAATTTGGAAAGAGAAATTTAAACAGCATGAGGAGTATATTAGAAACTTGCATTTACAAATGGAAGAAGAAAGAACAAGATTTAAAGACCAACAAGAAAAAGAAAAAAATTCTTTGTTAAAACAGCAGAATAATGCAGCTGTTAAAATTCAAGCTAAATATAAAGCATTTGTTGCCTATCAAAAATATGGCCCAATTATTAAAGAGCAAATTGAAAGTAAGAAAAGGAAAGCACAAGAGTGGAAGGAAAAGGAAGCAAAAATACGACAAAAGGAGGAAGAAAATCGAAAAAGATTAGAGGAGGAACAAAGGATAAAAGAAGAGAGAAAAAAGCAAAAGGAAGAGGAAAGGAAAAGGAGAGAAAAAGAATATGAAGAAAAAAAGAATATTGTGAAACAGGAAAGAGAGCAACTAATAAGCAAGGAAAAAATAATATTAAGAGAAGATGCAAGCCAACAGCTAATAATAAGTAGTGCATTAAAGAAGAGCGGATATAATAACAAACATTTAAGTCTTGAAGATATTTCAAATGATAAGGGTGATATAGCCAAAAATCTAGTGGATGAAAATTCAAAGAAGCAGGAAGATGTTCTCCTTTGGCTAGTTGAGGAATCAAATATGAAAGAAAATGTAGATAGACAGACTATATTAAAAGAATCAATACAAGTAAAGTTAAAAGAATCTATATCAAGCCAAACAATTCTGGCAGATTTTAAAATGGAAGAAAAAAATGAAAACCTAGCAAAAAAACGATGTTCAGAAGAATTGGTCAAGCAAGAAAGAAAATATGAAAATACAGATAACAAAACTGAATTGGGAAACTCTGATCTAAAAGGAAATCTGAAAGAACAGTTTCCATTGCAAGAATTAAAGTCTGATGCACAAAAAGAAGAAAAAATCATGAAACATGTCATAAATGAGAATACAGGACAAAAAACCCAGATAATATTAGGACATAACCAAGAAATCAGTGAGGTGAAAACCAATGAAGAGCAGAAAATAATCAAAGATAATCAGCAGAAAAAGATACAAAAAGTAGAAAAAGAAGAGATACAAGAACAGAATGGATTATTATATAAAGATAAGGATACTTTAGTTATTTCAGTGAAACAAAGATCACTCTCACTAACATCAGAAAATTCCAAAGATGTAAGAGAAAACGTAATATTACAAGAAAAAGAAATTTATTCAAAATCCAAAGAAATTGAGGAGAACCCAAAAGACAATGCTTGGAATAGTGGCATTGTGATTTTTAACACAACTGATACCATGATAAATATAGAAGGCAAAAGAAATGACCAAGATTATGTGTTAGGTAGACATGCTCCTTGTGAGGGCTTGAGTAACTATAATGCAGAAAGCTCCATGGTATCTAAAGAAGTCAACTCTCTTAAATCTGAGATTAGAAATATTTCAGAAAAATGCCATGAAAATGCACCTGAACCTGATAGCATGACCTGCTGTGTATCAGAGTCAACCCTTCTATATTCTATTGAAGAAAGGAGACTAGCCTGGATAAAATCATTTAAACCTTGGCTTGAAATTTTCAAGCAAAATCAACAAAAGAAAATTGTTAGAAGAAAGAGACCTGTGAAATGCCCAGCCAACATGACACCCGCTTTGGATAAACTGGAAATTCTTCGATGTGGCCCTTGGGATACTTTACAGCAGGTTACAACAGTTACATTTCAAGATTTGCCAGGCTGTGTTCTCTCCACACTGGCAGAGTGTACAAATCTTCAGTTTCTATCCCTTCGACGCTGTGGATTAACTTCTTTGCACAGCCTGAGTAATTGTAAAAAACTTAAGTACATTGATGCACAGGAAAACCATATTGAGGCTATTGAGTGTGAAAATTTGGAAAATCTCTGTGTTGTTCTTCTTAATAAAAATCAACTGACTTCTCTTCATGGTTTGGATGGCTGTACTAATATTCAGTGTCTTGAACTTTCATATAATAAAATTACTCGAATTGGATATTCCTTCTTTCTGGAAGAAAAACTTGTTGACAATGCAGGGTTCTGCCATCACTTGGGCACCTCCACTTCTTACTTATCCCTGGCACAAGTCTGGATTCCAACTGGATTATGTTGGTCCTGGATACCTATTACCTCACTTACAAAAAATTCAGATTGTAATTTCCTTATCTCCCACTTATACTGGAATTGTGGTTTAGAATCTTTGAAAAATCTTCAACAACTAATTTTGGACCACAATCAGTTAATTAATACAAAAGGTCTTTGTGATACACCTACCATTGTATACCTAGATTGCTCCCATAATCATCTTACTGATGTAGAGGGCGTTGAAAATTGTGGATTGCTCCAAATATTGAAGTTACAGGGAAATTATCTGAGTGAGCTTCCATCCTTGGAGAATCTTGTTTTACTAAGAGAATTGCACTTGGATGATAACAGCATTTCAACTGTGGAAGCATTTTCTTCATACTGGCTGCCTTTACTACAAAATATTACTATCTCTCAAAACAGCTTGACTAAAATCGTACCACTTTTTCATTTTGTTTCATTGGAAAAGCTAGATGTCAGCCACAATTGTCTTTCTGATCTTAAAAGTGCCATAAAATGGTTTGATGCATGCTATTCTCTCCATGAATTGTCTCTTACTGGAAACCCACTTCTTCAAGAAACAAACTGGAGGGATTCTCTACTTAAAGTGTTGCCTGCTCTGAGAATCCTCAATGGCAATATACTAAACTCTAATTCAGAAAGCCGCACTGAAGAACACAATCAACTGGGATCAGCAGGTTTCCTGGCACTTTGTCAGTCTCAGATTCGAGAATTCAACTTGCTAATTGAAAATTATATAACTGGAAAAGGAGATGTATTTACCTTGGATACTGCAGAAAATCTCTGTCATTATTTTAAGAAATTGATGATACTTAGTACTGAATACCGACATGCACACGAACGAGGGGATGTAACTATCACCAAGAAAGATGAATCAGAAGCCCAGAAAAATCATTTGGCCCCTACAAACAGTGACAGCACTCTGCAAAATGGAGTCTTCTACTCTTGTGCACGTGAAGGTGAGCCAGACTCACCAGATATTCCTGAGAAATGGATGGACTCTGTCTCCAGCCACTCCCCATTAAGCAAATCCGCCACATGTGAAAATATGGAAGGAAGACATCAGGAAATATTAGTATGTCAGAAGAGAGAAGACAGCAAGGCAAGCAGTATTCCCACCATAAGAATCCCATTTAAGGAAGTAGTAATGACAAATTCTTTGCTGAGGAATCACCAAAATATTGAGCCTAGTGAAAAAATTATGGCAGCTGTGGTAATCCAGTCATACTGGCGTGGTTACCTCATGCGCAGACAGACTCATTTCTCCACAAGGCTACATACTGCTGCAACAGAAGGCCTGCCAAATTCTTCCATCAAGAATCAGACTATTTTAAAGAAAGGAAAAAGAGAAAATATTGTGAATATCCGAAAACAGAGGGAGAAGGCTGCTATTCTTATTCAGGCAGTTTGGAAGGGCTTTATTTTGCGAAAGAAACTGACAACAGCTCTAGAGGCTATTAAGAATGAAGAATCCGATGAAGAATACAGAGAAATAGATTTAGAGGATTTTATATTTGATGAAGCTGCCTTAGAAGAAGAATGGCTAGCATTAGATTCCACCCGCTTCCCTTCACAAACACTGCTTCTTTCAAACCAGCTGCATTGGCCAAAGATTCCTGGAAACTTAAAATGGGATGATACTTCATTTAATTTACCAAGTAATCCAGCTCAAGCATGGTTATGTAATGACAAAGAAAATTTGTCTTCTTCAGAACACACACAATTTAATAGCAGATCAGAAAATAAAACTTCTTCCTGGACACCTGAATCAAAGACCAGTAGAAAGAGTTTGCTAAAATCTGAAAAAGAAAAAAAAATTTCAGAAGAATGGGGCTTTAAGGATATTTCTACTGCTCAGCAAATGTTGAAGAGGGCACAGAAAATGAAATCGAAGAAACTAAAGAAAAAAATAGATTCCACTGTGCGTCTAGCCTTATTCAAAAACAATGAAAATAAAGTGTCTCTTCCAAAATCACCAAAGATGGTACAGCCCAGAAGAGATGGTTACTTTGAAGGTATAGAAGAAGACCCTATCCACAAAGATACCACTGCAAATGAAAAATTAGAACGGAATAGAGAATATACATACCAATGGCTTCACACACAGGTTGGGGTTCATGAAACGACTAGTTCCAGAAATATGAAATGCAATCACTTTTTGCCTGAGTTAGATCCAGATGTACTTAATGGTGGAAGAGTTCAGCTTGTGGCAAGACTTGTAAGCAGAGAAGACACGGATTTAGACCTTTTTTCCATGACCAATGGAAGTGCTTTGTCTGTGAACAGAGAAAAAAAAAATCAGGCACACAGACACTCAGCAGGATCTTCAAGTAAGTTGTGGTTTCCTTCAAAATTAATTTAG

Amino sequence

MDDDDAKLKAEIEAELDKLSISSLEKEDIESDAKSETQSDDSDTDSVELPESVLHCINIIKNRSKAVEELILQDLEDTDILSCSYGAVSNNHMHLRTGLSTEYEESSEQLIKILSEIEKEEFMRSKTDCATPDFVPEPSPHDLPMDEHVLPDDADINFGYCEVEEKCRQSFEAWQEKQKELEDKEKQTLKAQRDREEKQFQEEEEKRHCWMKQFKVEKKKLENIQKQEQDKMNDELYKEEKIWKEKFKQHEEYIRNLHLQMEEERTRFKDQQEKEKNSLLKQQNNAAVKIQAKYKAFVAYQKYGPIIKEQIESKKRKAQEWKEKEAKIRQKEEENRKRLEEEQRIKEERKKQKEEERKRREKEYEEKKNIVKQEREQLISKEKIILREDASQQLIISSALKKSGYNNKHLSLEDISNDKGDIAKNLVDENSKKQEDVLLWLVEESNMKENVDRQTILKESIQVKLKESISSQTILADFKMEEKNENLAKKRCSEELVKQERKYENTDNKTELGNSDLKGNLKEQFPLQELKSDAQKEEKIMKHVINENTGQKTQIILGHNQEISEVKTNEEQKIIKDNQQKKIQKVEKEEIQEQNGLLYKDKDTLVISVKQRSLSLTSENSKDVRENVILQEKEIYSKSKEIEENPKDNAWNSGIVIFNTTDTMINIEGKRNDQDYVLGRHAPCEGLSNYNAESSMVSKEVNSLKSEIRNISEKCHENAPEPDSMTCCVSESTLLYSIEERRLAWIKSFKPWLEIFKQNQQKKIVRRKRPVKCPANMTPALDKLEILRCGPWDTLQQVTTVTFQDLPGCVLSTLAECTNLQFLSLRRCGLTSLHSLSNCKKLKYIDAQENHIEAIECENLENLCVVLLNKNQLTSLHGLDGCTNIQCLELSYNKITRIGYSFFLEEKLVDNAGFCHHLGTSTSYLSLAQVWIPTGLCWSWIPITSLTKNSDCNFLISHLYWNCGLESLKNLQQLILDHNQLINTKGLCDTPTIVYLDCSHNHLTDVEGVENCGLLQILKLQGNYLSELPSLENLVLLRELHLDDNSISTVEAFSSYWLPLLQNITISQNSLTKIVPLFHFVSLEKLDVSHNCLSDLKSAIKWFDACYSLHELSLTGNPLLQETNWRDSLLKVLPALRILNGNILNSNSESRTEEHNQLGSAGFLALCQSQIREFNLLIENYITGKGDVFTLDTAENLCHYFKKLMILSTEYRHAHERGDVTITKKDESEAQKNHLAPTNSDSTLQNGVFYSCAREGEPDSPDIPEKWMDSVSSHSPLSKSATCENMEGRHQEILVCQKREDSKASSIPTIRIPFKEVVMTNSLLRNHQNIEPSEKIMAAVVIQSYWRGYLMRRQTHFSTRLHTAATEGLPNSSIKNQTILKKGKRENIVNIRKQREKAAILIQAVWKGFILRKKLTTALEAIKNEESDEEYREIDLEDFIFDEAALEEEWLALDSTRFPSQTLLLSNQLHWPKIPGNLKWDDTSFNLPSNPAQAWLCNDKENLSSSEHTQFNSRSENKTSSWTPESKTSRKSLLKSEKEKKISEEWGFKDISTAQQMLKRAQKMKSKKLKKKIDSTVRLALFKNNENKVSLPKSPKMVQPRRDGYFEGIEEDPIHKDTTANEKLERNREYTYQWLHTQVGVHETTSSRNMKCNHFLPELDPDVLNGGRVQLVARLVSREDTDLDLFSMTNGSALSVNREKKNQAHRHSAGSSSKLWFPSKLI*

ENST00000393217.7 LRRIQ1

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