Citations to this article
Abstract
The two human alpha-globin genes, alpha 1 and alpha 2 located 3.4 kilobases apart on chromosome 16, encode identical alpha-globin proteins. A mutation in either gene could result in a structural hemoglobinopathy. It has only recently become possible to assign an alpha-chain mutant to one of these two loci by using recombinant DNA technology. While definitive, this approach has necessitated the cloning and sequencing of the specific gene in question. We present an alternative approach which results in rapid and definitive assignment of an alpha-globin mutation to its encoding genetic locus. This approach uses the technique of hybrid-selected translation. Reticulocyte RNA from individuals with alpha-globin mutations can be fractionated into beta-, alpha 9 (total)-, alpha 1-, and alpha 2-globin mRNA by selective hybridization of each mRNA species to its respective complementary DNA (cDNA) immobilized on nitrocellulose paper. Each mRNA purified in this way can be translated in vitro, and the mRNA species (and hence gene locus) encoding the globin mutant can then be directly identified by gel analysis of the radiolabeled translation products. This procedure can be used to identify globin mutants as alpha or beta and to localize alpha-globin mutants to the alpha 1 or alpha 2 gene. We have used this technique to localize the two alpha-globin mutants, alpha 125Pro (Hb Quong Sze) and alpha 47HIS (Hb Hasharon), to the alpha 2 locus. This approach could potentially be expanded to serve as an alternative to peptide analysis for the initial characterization of all globin structural mutants.
Authors
S A Liebhaber, F E Cash
Total citations by year
Citations to this article (20)
| Title and authors | Publication | Year |
|---|---|---|
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The CG transition in the alpha2-globin gene of a normal alphaalpha-chromosome is responsible for the Hb G-Philadelphia variant in Sardinians
B Masala, L Musino, M Pirastru, L Manca |
European Journal of Haematology | 2004 |
|
Characterization and locus assignment of two α-globin variants present in the maltese population: Hb St. Luke's [α95(G2)Pro→Arg] and Hb Setif [α94(G1)Asp→Tyr]
SB Wettinger, R Galdies, C Scerri, AE Felice |
Hemoglobin | 1999 |
|
Rapid analysis of -α3.7thalassaemia and αααanti 3.7triplication by enzymatic amplification analysis
C Dodé, R Krishnamoorthy, J Lamb, J Rochette |
British Journal of Haematology | 1993 |
|
Translation inhibition by an mRNA coding region secondary structure is determined by its proximity to the AUG initiation codon
SA Liebhaber, F Cash, SS Eshleman |
Journal of Molecular Biology | 1992 |
|
Human ?-globin gene expression is silenced by terminal truncation of chromosome 16p beginning immediately 3? of the ?-globin gene
L Romao, F Cash, I Weiss, S Liebhaber, M Pirastu, R Galanello, A Loi, E Paglietti, P Ioannou, A Cao |
Human Genetics | 1992 |
|
The Interactions of α -Thalassemia with Hemoglobinopathies
MH Steinberg |
Hematology/Oncology Clinics of North America | 1991 |
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Locus assignment of human a globin mutations by selective amplification and direct sequencing
C Dodé, JR and, R Krishnamoorthy |
British Journal of Haematology | 1990 |
|
Inactivation of human alpha-globin gene expression by a de novo deletion located upstream of the alpha-globin gene cluster
SA Liebhaber, EU Griese, I Weiss, FE Cash, H Ayyub, DR Higgs, J Horst |
Proceedings of the National Academy of Sciences | 1990 |
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Locus assignment of human ?-globin structural mutants by selective enzymatic amplification of ?1 and ?2-globin cDNAs
A Mamalaki, M Horanyi, J Szelenyi, NK Moschonas |
Human Genetics | 1990 |
|
α Thalassemia
SA Liebhaber |
Hemoglobin | 1989 |
|
Mouse placental 57-kDa calcium-binding protein: I. Cloning of cDNA and characterization of developmental expression
RS Tuan, JJ Kirwin |
Differentiation | 1988 |
|
Review: Thalassemia: Molecular Pathology and Management
MH Steinberg |
The American Journal of the Medical Sciences | 1988 |
|
Different hematologic phenotypes are associated with the leftward (-alpha 4.2) and rightward (-alpha 3.7) alpha+-thalassemia deletions
DK Bowden, AV Hill, DR Higgs, SJ Oppenheimer, DJ Weatherall, JB Clegg |
Journal of Clinical Investigation | 1987 |
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Molecular basis for nondeletion alpha-thalassemia in American blacks. Alpha 2(116GAG----UAG)
SA Liebhaber, MB Coleman, JG 3rd, FE Cash, MH Steinberg |
Journal of Clinical Investigation | 1987 |
|
Translational profiles of alpha 1-, alpha 2-, and beta-globin messenger ribonucleic acids in human reticulocytes
SH Shakin, SA Liebhaber |
Journal of Clinical Investigation | 1986 |
|
Isolation and characterization of a cDNA encoding a human liver/bone/kidney-type alkaline phosphatase
MJ Weiss, PS Henthorn, MA Lafferty, C Slaughter, M Raducha, H Harris |
Proceedings of the National Academy of Sciences | 1986 |
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Alkaline phosphatase conjugated Protein A as a sensitive reagent to immunoscreen an expression cDNA plasmid library: Isolation of cDNA to the calcium-binding protein of the chick embryonic chorioallantoic membrane
RS Tuan, DF Fitzpatrick |
Analytical Biochemistry | 1986 |
|
Rat vitamin D binding protein. Determination of the full-length primary structure from cloned cDNA
NE Cooke |
The Journal of biological chemistry | 1986 |
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Human alpha-globin gene expression. The dominant role of the alpha 2-locus in mRNA and protein synthesis
SA Liebhaber, FE Cash, SK Ballas |
The Journal of biological chemistry | 1986 |
|
Hemoglobin I Mutation Encoded at Both α-Globin Loci on the Same Chromosome: Concerted Evolution in the Human Genome
SA Liebhaber, EF Rappaport, FE Cash, SK Ballas, E Schwartz, S Surrey |
Science | 1984 |
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