Incidental Mutation 'IGL01575:Ddx46'
ID 91235
Institutional Source Australian Phenomics Network (link to record)
Gene Symbol Ddx46
Ensembl Gene ENSMUSG00000021500
Gene Name DEAD box helicase 46
Synonyms 8430438J23Rik, DEAD (Asp-Glu-Ala-Asp) box polypeptide 46, 2200005K02Rik
Accession Numbers
Essential gene? Probably essential (E-score: 0.965) question?
Stock # IGL01575
Quality Score
Status
Chromosome 13
Chromosomal Location 55782840-55829069 bp(+) (GRCm39)
Type of Mutation splice site
DNA Base Change (assembly) C to T at 55801996 bp (GRCm39)
Zygosity Heterozygous
Amino Acid Change
Ref Sequence ENSEMBL: ENSMUSP00000153328 (fasta)
Gene Model predicted gene model for transcript(s): [ENSMUST00000099479] [ENSMUST00000172272] [ENSMUST00000223736]
AlphaFold Q569Z5
Predicted Effect probably benign
Transcript: ENSMUST00000099479
SMART Domains Protein: ENSMUSP00000097078
Gene: ENSMUSG00000021500

DomainStartEndE-ValueType
low complexity region 9 109 N/A INTRINSIC
Blast:DEXDc 110 348 4e-76 BLAST
DEXDc 391 592 3.27e-49 SMART
HELICc 629 710 1.55e-27 SMART
low complexity region 760 776 N/A INTRINSIC
low complexity region 798 813 N/A INTRINSIC
internal_repeat_1 855 894 6.68e-7 PROSPERO
low complexity region 911 925 N/A INTRINSIC
Predicted Effect probably benign
Transcript: ENSMUST00000172272
SMART Domains Protein: ENSMUSP00000133245
Gene: ENSMUSG00000021500

DomainStartEndE-ValueType
low complexity region 9 109 N/A INTRINSIC
Blast:DEXDc 110 348 5e-76 BLAST
DEXDc 391 596 8.03e-67 SMART
HELICc 633 714 1.55e-27 SMART
low complexity region 764 780 N/A INTRINSIC
low complexity region 802 817 N/A INTRINSIC
internal_repeat_1 859 898 1.04e-6 PROSPERO
low complexity region 915 929 N/A INTRINSIC
Predicted Effect probably benign
Transcript: ENSMUST00000223736
Predicted Effect noncoding transcript
Transcript: ENSMUST00000224551
Coding Region Coverage
Validation Efficiency
MGI Phenotype FUNCTION: [Summary is not available for the mouse gene. This summary is for the human ortholog.] This gene encodes a member of the DEAD box protein family. DEAD box proteins, characterized by the conserved motif Asp-Glu-Ala-Asp (DEAD), are putative RNA helicases. They are implicated in a number of cellular processes involving alteration of RNA secondary structure, such as translation initiation, nuclear and mitochondrial splicing, and ribosome and spliceosome assembly. Based on their distribution patterns, some members of this family are believed to be involved in embryogenesis, spermatogenesis, and cellular growth and division. The protein encoded by this gene is a component of the 17S U2 snRNP complex; it plays an important role in pre-mRNA splicing. Multiple alternatively spliced transcript variants have been found for this gene. [provided by RefSeq, Jul 2014]
Allele List at MGI
Other mutations in this stock
Total: 37 list
GeneRefVarChr/LocMutationPredicted EffectZygosity
Anapc2 C T 2: 25,175,188 (GRCm39) probably benign Het
Atp10b G A 11: 43,063,548 (GRCm39) R161H probably benign Het
Boll A G 1: 55,362,807 (GRCm39) probably null Het
Cngb1 G A 8: 95,991,148 (GRCm39) P226S possibly damaging Het
Commd3 G A 2: 18,679,528 (GRCm39) probably null Het
Dmrtb1 A G 4: 107,541,265 (GRCm39) I32T probably benign Het
Dnah7a T C 1: 53,466,979 (GRCm39) probably benign Het
Dppa5a A G 9: 78,275,062 (GRCm39) I80T possibly damaging Het
Galntl6 T C 8: 58,880,710 (GRCm39) probably benign Het
Hmgcr A G 13: 96,793,103 (GRCm39) Y510H possibly damaging Het
Idua G T 5: 108,829,973 (GRCm39) R505L possibly damaging Het
Ifna15 A G 4: 88,476,044 (GRCm39) F147L probably damaging Het
Itga4 T C 2: 79,118,599 (GRCm39) S433P probably damaging Het
Kcnc1 T C 7: 46,077,523 (GRCm39) Y442H possibly damaging Het
Kmt2d A G 15: 98,744,736 (GRCm39) probably benign Het
Mpp7 A G 18: 7,403,365 (GRCm39) probably benign Het
Or14c39 T C 7: 86,344,501 (GRCm39) V279A probably benign Het
Or5p64 A C 7: 107,854,742 (GRCm39) V201G possibly damaging Het
Or6c75 A G 10: 129,337,436 (GRCm39) I228V probably benign Het
Pam16l T C 10: 43,400,411 (GRCm39) V55A probably benign Het
Phf14 T C 6: 11,990,050 (GRCm39) L693S probably damaging Het
Pkd1 A G 17: 24,792,102 (GRCm39) N1263S probably damaging Het
Rhbdl1 G T 17: 26,055,112 (GRCm39) A32E possibly damaging Het
Samd9l A G 6: 3,376,734 (GRCm39) S176P possibly damaging Het
Scn1a G T 2: 66,103,580 (GRCm39) F1893L probably damaging Het
Serpina3f C A 12: 104,184,699 (GRCm39) P281Q probably damaging Het
Slc35a1 G T 4: 34,668,932 (GRCm39) Q294K probably benign Het
Sspo G A 6: 48,435,976 (GRCm39) S1154N probably benign Het
Tdrd6 A G 17: 43,938,871 (GRCm39) S726P probably benign Het
Tiam2 A T 17: 3,504,591 (GRCm39) E24V probably damaging Het
Tmf1 T C 6: 97,152,897 (GRCm39) E392G probably damaging Het
Tns2 T C 15: 102,021,626 (GRCm39) V1089A probably damaging Het
Tspyl1 C A 10: 34,159,086 (GRCm39) N270K probably damaging Het
Usp32 A T 11: 84,913,628 (GRCm39) V901D probably damaging Het
Vldlr A G 19: 27,224,031 (GRCm39) I764V probably benign Het
Wnk2 A G 13: 49,300,152 (GRCm39) V186A probably damaging Het
Zdhhc18 A G 4: 133,341,210 (GRCm39) V221A probably damaging Het
Other mutations in Ddx46
AlleleSourceChrCoordTypePredicted EffectPPH Score
IGL01021:Ddx46 APN 13 55,814,145 (GRCm39) nonsense probably null
IGL01137:Ddx46 APN 13 55,817,530 (GRCm39) nonsense probably null
IGL01432:Ddx46 APN 13 55,785,835 (GRCm39) splice site probably benign
IGL01673:Ddx46 APN 13 55,800,861 (GRCm39) missense probably damaging 1.00
IGL01868:Ddx46 APN 13 55,787,683 (GRCm39) nonsense probably null
IGL01945:Ddx46 APN 13 55,802,885 (GRCm39) nonsense probably null
IGL02106:Ddx46 APN 13 55,825,416 (GRCm39) unclassified probably benign
IGL03288:Ddx46 APN 13 55,785,907 (GRCm39) missense unknown
immersion UTSW 13 55,823,892 (GRCm39) missense probably damaging 1.00
steeped UTSW 13 55,798,291 (GRCm39) missense probably damaging 1.00
R0270:Ddx46 UTSW 13 55,821,917 (GRCm39) missense probably benign 0.00
R0631:Ddx46 UTSW 13 55,787,590 (GRCm39) splice site probably benign
R1082:Ddx46 UTSW 13 55,802,909 (GRCm39) missense possibly damaging 0.87
R1502:Ddx46 UTSW 13 55,811,122 (GRCm39) missense possibly damaging 0.89
R2081:Ddx46 UTSW 13 55,821,829 (GRCm39) missense probably benign 0.00
R2256:Ddx46 UTSW 13 55,795,521 (GRCm39) missense possibly damaging 0.50
R4366:Ddx46 UTSW 13 55,811,049 (GRCm39) missense probably benign 0.10
R4856:Ddx46 UTSW 13 55,786,012 (GRCm39) missense unknown
R4886:Ddx46 UTSW 13 55,786,012 (GRCm39) missense unknown
R5001:Ddx46 UTSW 13 55,800,732 (GRCm39) missense probably damaging 0.98
R5152:Ddx46 UTSW 13 55,806,843 (GRCm39) missense probably damaging 1.00
R5258:Ddx46 UTSW 13 55,800,837 (GRCm39) missense possibly damaging 0.95
R5278:Ddx46 UTSW 13 55,823,851 (GRCm39) missense probably damaging 0.97
R5806:Ddx46 UTSW 13 55,811,150 (GRCm39) missense possibly damaging 0.93
R6627:Ddx46 UTSW 13 55,800,748 (GRCm39) missense probably benign 0.15
R6659:Ddx46 UTSW 13 55,817,537 (GRCm39) missense probably damaging 1.00
R6838:Ddx46 UTSW 13 55,787,748 (GRCm39) critical splice donor site probably null
R7235:Ddx46 UTSW 13 55,811,053 (GRCm39) missense probably benign 0.01
R7537:Ddx46 UTSW 13 55,798,291 (GRCm39) missense probably damaging 1.00
R7664:Ddx46 UTSW 13 55,806,864 (GRCm39) missense probably damaging 1.00
R7673:Ddx46 UTSW 13 55,806,972 (GRCm39) missense probably benign 0.01
R7704:Ddx46 UTSW 13 55,821,832 (GRCm39) missense probably benign 0.00
R7943:Ddx46 UTSW 13 55,817,535 (GRCm39) missense probably damaging 1.00
R8188:Ddx46 UTSW 13 55,814,029 (GRCm39) missense possibly damaging 0.95
R8324:Ddx46 UTSW 13 55,811,727 (GRCm39) missense probably damaging 1.00
R8880:Ddx46 UTSW 13 55,814,033 (GRCm39) missense probably benign 0.07
R9059:Ddx46 UTSW 13 55,799,921 (GRCm39) missense probably benign 0.00
R9141:Ddx46 UTSW 13 55,823,892 (GRCm39) missense probably damaging 1.00
R9167:Ddx46 UTSW 13 55,802,915 (GRCm39) missense probably null 1.00
R9199:Ddx46 UTSW 13 55,825,342 (GRCm39) missense probably damaging 1.00
R9295:Ddx46 UTSW 13 55,811,599 (GRCm39) missense possibly damaging 0.95
R9613:Ddx46 UTSW 13 55,787,749 (GRCm39) critical splice donor site probably null
R9703:Ddx46 UTSW 13 55,824,635 (GRCm39) missense probably damaging 1.00
Posted On 2013-12-09