GM13509
LCL from B-Lymphocyte
Description:
HUNTINGTON DISEASE; HD
HUNTINGTIN; HTT
Repository
|
NIGMS Human Genetic Cell Repository
|
Subcollection |
Heritable Diseases |
Class |
Disorders of the Nervous System |
Class |
Disorders with Trinucleotide Expansions |
Biopsy Source
|
Peripheral vein
|
Cell Type
|
B-Lymphocyte
|
Tissue Type
|
Blood
|
Transformant
|
Epstein-Barr Virus
|
Sample Source
|
LCL from B-Lymphocyte
|
Family Member
|
1
|
Relation to Proband
|
proband
|
Confirmation
|
Molecular characterization after cell line submission to CCR
|
Species
|
Homo sapiens
|
Common Name
|
Human
|
Remarks
|
|
IDENTIFICATION OF SPECIES OF ORIGIN |
Species of Origin Confirmed by Nucleoside Phosphorylase,Glucose-6-Phosphate Dehydrogenase, and Lactate Dehydrogenase Isoenzyme Electrophoresis |
|
IDENTIFICATION OF SPECIES OF ORIGIN |
Species of Origin Confirmed by Nucleoside Phosphorylase,Glucose-6-Phosphate Dehydrogenase, and Lactate Dehydrogenase Isoenzyme Electrophoresis |
|
Gene |
HD |
Chromosomal Location |
4p16.3 |
Allelic Variant 1 |
143100.0001; HUNTINGTON DISEASE |
Identified Mutation |
(CAG)n EXPANSION; Huntington disease is caused by expansion of a polymorphic trinucleotide repeat (CAG)n located in the coding region of the gene for huntingtin. The range of repeat numbers is 9 to 37 in normal individuals and 37 to 86 in HD patients. |
|
Gene |
HD |
Chromosomal Location |
4p16.3 |
Allelic Variant 1 |
143100.0001; HUNTINGTON DISEASE |
Identified Mutation |
(CAG)n EXPANSION; Huntington disease is caused by expansion of a polymorphic trinucleotide repeat (CAG)n located in the coding region of the gene for huntingtin. The range of repeat numbers is 9 to 37 in normal individuals and 37 to 86 in HD patients. |
Remarks |
Clinically affected; expanded CAG repeat HD alleles are 70 and 15; see GM21756 Fibroblast |
Caballero M, Ge T, Rebelo AR, Seo S, Kim S, Brooks K, Zuccaro M, Kanagaraj R, Vershkov D, Kim D, Smogorzewska A, Smolka M, Benvenisty N, West SC, Egli D, Mace EM, Koren A, Comprehensive analysis of DNA replication timing across 184 cell lines suggests a role for MCM10 in replication timing regulation Human molecular genetics: 2021 |
PubMed ID: 35394024 |
|
Krzyszton-Russjan J, Chudziak J, Bednarek M, Anuszewska EL, Development of New PCR Assay with SYBR Green I for Detection of Diagnostics (Basel, Switzerland)11: 2021 |
PubMed ID: 34068904 |
|
Rafehi H, Szmulewicz DJ, Bennett MF, Sobreira NLM, Pope K, Smith KR, Gillies G, Diakumis P, Dolzhenko E, Eberle MA, Barcina MG, Breen DP, Chancellor AM, Cremer PD, Delatycki MB, Fogel BL, Hackett A, Halmagyi GM, Kapetanovic S, Lang A, Mossman S, Mu W, Patrikios P, Perlman SL, Rosemergy I, Storey E, Watson SRD, Wilson MA, Zee DS, Valle D, Amor DJ, Bahlo M, Lockhart PJ, Bioinformatics-Based Identification of Expanded Repeats: A Non-reference Intronic Pentamer Expansion in RFC1 Causes CANVAS American journal of human genetics105:151-165 2019 |
PubMed ID: 31230722 |
|
Tankard RM, Bennett MF, Degorski P, Delatycki MB, Lockhart PJ, Bahlo M, Detecting Expansions of Tandem Repeats in Cohorts Sequenced with Short-Read Sequencing Data American journal of human genetics105:151-165 2017 |
PubMed ID: 30503517 |
Split Ratio |
1:6 |
Temperature |
37 C |
Percent CO2 |
5% |
Percent O2 |
AMBIENT |
Medium |
Roswell Park Memorial Institute Medium 1640 with 2mM L-glutamine or equivalent |
Serum |
20% fetal bovine serum Not Inactivated |
Substrate |
None specified |
Subcultivation Method |
dilution - add fresh medium |
Supplement |
- |
|
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