Sequence information
Variant position: 629 The position of the amino-acid change on the UniProtKB canonical protein sequence.
Protein sequence length: 1159 The length of the canonical sequence.
Location on the sequence:
DKYVTALYFTFSSLTSVGFG
N VSPNTNSEKIFSICVMLIGS
The residue change on the sequence. Unless the variant is located at the beginning or at the end of the protein sequence, both residues upstream (20) and downstream (20) of the variant will be shown.
Residue conservation: The multiple alignment of the region surrounding the variant against various orthologous sequences.
Human DKYVTALYFTFSSLTSVGFGN VSPNTNSEKIFSICVMLIGS
Mouse DKYVTALYFTFSSLTSVGFGN VSPNTNSEKIFSICVMLIGS
Rat DKYVTALYFTFSSLTSVGFGN VSPNTNSEKIFSICVMLIGS
Rabbit DKYVTGLYFTFSSLTSVGFGN VSPNTNSEKIFSICVMLIGS
Sequence annotation in neighborhood: The regions or sites of interest surrounding the variant. In general the features listed are posttranslational modifications, binding sites, enzyme active sites, local secondary structure or other characteristics reported in the cited references. The "Sequence annotation in neighborhood" lines have a fixed format:Type: the type of sequence feature. Positions: endpoints of the sequence feature. Description: contains additional information about the feature.
Type Positions Description
Chain
1 – 1159
Potassium voltage-gated channel subfamily H member 2
Intramembrane
612 – 632
Pore-forming; Name=Segment H5
Motif
624 – 629
Selectivity filter
Mutagenesis
629 – 629
N -> Q. Abolishes cell surface expression; has no effect on N-glycosylation.
Mutagenesis
631 – 631
S -> A. No effect on cell surface expression, but changes inactivation kinetics; when associated with Q-598.
Literature citations
Multiple different missense mutations in the pore region of HERG in patients with long QT syndrome.
Satler C.A.; Vesely M.R.; Duggal P.; Ginsburg G.S.; Beggs A.H.;
Hum. Genet. 102:265-272(1998)
Cited for: VARIANTS LQT2 LEU-612; VAL-614; ASP-629; SER-629 AND SER-633;
Spectrum and prevalence of mutations from the first 2,500 consecutive unrelated patients referred for the FAMILION long QT syndrome genetic test.
Kapplinger J.D.; Tester D.J.; Salisbury B.A.; Carr J.L.; Harris-Kerr C.; Pollevick G.D.; Wilde A.A.; Ackerman M.J.;
Heart Rhythm 6:1297-1303(2009)
Cited for: VARIANTS LQT2 ALA-16; GLY-20; LEU-29; THR-30; THR-32; PHE-41; TYR-45; ASP-53; HIS-54; PRO-57; TRP-64; ARG-70; ASN-70; 72-PRO--ALA-80 DELINS ARG-PRO-VAL; GLN-72; LEU-72; ARG-74; MET-74; PRO-74; VAL-85; PRO-86; GLY-94; GLN-100; TRP-100; ALA-102; TYR-106; ARG-108; SER-114; CYS-125; LEU-141; ALA-149; HIS-164; VAL-218; GLY-242; ASN-259; ASP-277; THR-291; LEU-301; CYS-312; SER-314; ASN-323; CYS-328; ARG-402; MET-421; CYS-427; LEU-431; LEU-440; LEU-451; TYR-466; ASN-473; CYS-475; ILE-476; THR-490; CYS-493; SER-493; ASN-501; TRP-531; CYS-534; LEU-534; SER-552; GLU-558; THR-561; VAL-561; ARG-562; THR-565; ASP-572; SER-572; VAL-572; CYS-582; ARG-584; SER-584; CYS-585; LYS-593; ASP-594; HIS-596; LEU-596; CYS-597; ARG-599; CYS-601; SER-601; SER-604; LEU-605; SER-605; GLY-609; MET-613; VAL-614; CYS-616; ASP-626; SER-628; ILE-629; SER-629; ILE-634; ASP-635; LYS-635; ASP-637; ASN-638; LYS-638 DEL; LEU-644; PHE-644; ILE-645; SER-648; ARG-657; LEU-660; THR-662; PRO-678; TYR-687; PRO-693; VAL-711; PHE-728; VAL-749; ASN-757; TYR-767; ALA-770; TYR-774; LYS-788; 791-ARG--LEU-799 DEL; TRP-791; GLU-806; MET-822; TRP-823; TYR-837; SER-846; CYS-885; CYS-894; LEU-894; ARG-903; LEU-906; VAL-913; GLN-920; TRP-920; GLN-922; ALA-924; GLU-924; ASN-937; GLN-1005; HIS-1007; TRP-1033; MET-1038; PRO-1049; VAL-1066; CYS-1078; LEU-1093 AND VAL-1115;
Disclaimer:
Any medical or genetic information present in this entry is provided for research, educational and informational purposes only. They are not in any way intended to be used as a substitute for professional medical advice, diagnostic, treatment or care.