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Hemoglobin
international journal for hemoglobin research
Volume 13, 1989 - Issue 7-8
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Original Article

β-Thalassehia Repository

T. H. J. Huisman Laboratory of Protein Chemistry Department of Cell and Molecular Biology, Medical College of Georgia, Augusta, GA, 30912-2100, USA
Pages 775-787 | Published online: 07 Jul 2009

References

  • Antonarakis S. E., Orkin S. H., Cheng T-C., Scott A. F., Sexton J. P., Trusko S., Charache S., Kazazian H. H., Jr. β-Thalassemia in American Blacks: Novel mutations in the TATA box and IVS-2 acceptor splice site. Proc. Natl. Acad. Sci. USA 1984; 81: 1154
  • Atweh G. F., Anagnou N. P., Forget B. G., Kaufman R. E. β Thalassemia resulting from a single nucleotide substitution in an acceptor splice site. Nucleic Acids Res. 1985; 13: 777
  • Atweh G. F., Wong C. R., Antonarakis S. E., Zhu D., Ghosh P. K., Maniatis T., Forget B. G., Kazazian H. H., Jr. A new mutation in IVS-I of the human β-globin gene causing β-thalassemia due to abnormal splicing. Blood 1987; 70: 147
  • Atweh G. F., Brickner H. E., Zhu X. X., Kazazian H. H., Jr., Forget B. G. A new amber mutation in a β-thalassemia gene with non-measurable levels of mutant mRNA in vivo. J. Clin. Invest. 1988; 82: 557
  • Beldjord C., Lapoumeroulie C., Pagnier J., Benabadji M., Krishnamoorthy R., Labie D., Bank A. A novel beta thalassemia gene with a single base mutation in the conserved polypyrimidine sequence at the 3′ end of IVS-11. Nucleic Acids Res. 1988; 16: 4927
  • Beris Ph., Miescher P. A., Diaz-Chico J. C., Han I-S., Kutlar A., Hu H., Wilson J. B., Huisman T. H. J. Inclusion-body β-thalassemia trait in a Swiss family is caused by an abnormal hemoglobin (Geneva) with an altered and extended β chain carboxy-terminus due to a modification in codon β114. Blood 1988; 72: 801
  • Boehm C. D., Dowling C. E., Waber P. G., Giardina P. J. V., Kazazian H. H., Jr. Use of oligonucleotide hybridization in the characterization of a βO-thalassemia gene (β37 TGG→TGA) in a Saudi Arabian family. Blood 1986; 67: 1185
  • Cai S. P., Zeng J. Z., Doherty M., Kan Y. W. A new TATA box mutation detected in prenatal diagnosis. Am. J. Hum. Genet. 1989; 45: 112
  • Chan V., Chan T. K., Kan Y. W., Todd D. A novel β-thalassemia frameshift mutation (codon 14/15) detectable by direct visualization of abnormal restriction fragment in amplified genomic DNA. Blood 1988; 72: 1420
  • Chang J. C., Kan Y. W. βo-Thalassemia, a nonsense mutation in man. Proc. Natl. Acad. Sci. USA 1980; 76: 2886
  • Chehab F. F., Der Kaloustian V., Khouri F. P., Deeb S. S., Kan Y. W. The molecular basis of β-thalassemia in Lebanon: Application of prenatal diagnosis. Blood 1987; 69: 1141
  • Chehab F. F., Winterhalter K. H., Kan Y. W. Characterization of a spontaneous mutation in β-thalassemia associated with advanced paternal age. Blood 1989; 74: 852
  • Cheng T-C., Orkin S. H., Antonarakis S. E., Potter M. J., Sexton J. P., Giardina P. J. V., Li A., Kazazian H. H., Jr. β-Thalassemia in Chinese: Use of in vivo RNA analysis and oligonucleotide hybridization in systematic characterization of molecular defects. Proc. Natl. Acad. Sci. USA 1984; 81: 2821
  • Chibani J., Vidaud M., Duquesnoy P., Berge-Lefranc J. L., Pirastu M., Ellouze F., Rosa F., Goossens M. The peculiar spectrum of β-thalassemia genes in Tunisia. Hum. Genet. 1988; 78: 190
  • Dobkin C., Pergolizzi R. G., Bahre P., Bank A. Abnormal splice in a mutant β-globin gene not at the site of a mutation. Proc. Natl. Acad. Sci. USA 1983; 80: 1184
  • Fei Y. J., Stoming T. A., Efremov G. D., Efremov D. G., Batta-Charia R., Gonzalez-Redondo J. M., Altay C., Gurgey A., Huisman T. H. J. β-Thalassemia due to a T → A mutation within the ATA box. Biochem. Biophys. Res. Commun. 1988; 153: 741
  • Fei Y. J., Stoming T. A., Kutlar A., Huisman T. H. J., Stamatoyannopoulos G. One form of inclusion body β-thalassemia is due to a GAA →TAA mutation at codon 121 of the β chain. Blood 1989; 73: 1075
  • Fucharoen S., Fucharoen G., Fucharoen P., Fukumaki Y. A novel ochre mutation in the β-thalassemia gene of a Thai. J. Biol. Chem. 1989; 264: 7780
  • Goldsmith M. E., Humphries R. K., Ley T., Cline A., Kantor J. A., Nienhuis A. W. Silent substitution in β+-thalas-semia gene activating a cryptic splice site in β-globin RNA coding sequence. Proc. Natl. Acad. USA 1983; 80: 2318
  • Gonzalez-Redondo J. M., Stoming T. A., Lanclos K. D., Gu Y. C., Kutlar A., Kutlar F., Nakatsuji T., Deng B., Han I. S., McKie V. C., Huisman T. H. J. Clinical and genetic heterogeneity in Black patients with homozygous β-thalassemia from the Southeastern United States. Blood 1988; 72: 1007
  • Gonzalez-Redondo J. M., Stoming T. A., Kutlar F., Kutlar A., McKie V. C., McKie K. M., Huisman T. H. J. Severe Hb S-βo-thalassaemia with a T→C substitution in the donor splice site of the first intron of the β-globin gene. Br. J. Haematol. 1989a; 71: 113
  • Gonzalez-Redondo J. M., Stoming T. A., Kutlar F., Kutlar A., Hu H., Wilson J. B., Huisman T. H. J. Hb Monroe or α2β2 30(BlE)Arg→Thr, a variant associated with β-thalassemia due to a G→C substitution adjacent to the donor splice site of the first intron. Hemoglobin 1989b; 13: 67
  • Gonzalez-Redondo J. M., Stoming T. A., Kutlar A., Kutlar F., Lanclos K. D., Howard E. F., Fei Y. J., Aksoy M., Altay C., Gurgey A., Basak A. N., Efremov G. D., Petkov G., Huisman T. H. J. A C→T substitution at nt -101 in a conserved DNA sequence of the promoter region of the β-globin gene is associated with “silent” β-thalassemia. Blood 1989c; 73: 1705
  • Hattori Y., Yamane A., Yamashiro Y., Matsuno Y., Yamamoto Ki., Yamamoto Ku, Ohba Y., Miyaji T. Gene analysis of β-thalassemia among Japanese. Hemoglobin, this issue
  • Huang S-Z., Wong C., Antonarakis S. E., Ro-Lein T., Lo W. H. Y., Kazazian H. H., Jr. The same TATA box β-thalas-semia mutation in Chinese and U.S. Blacks: Another example of independent origins of mutation. Hum. Genet. 1986; 74: 152
  • Jankovic L., Efremov G. D., Petkov G., Kattamis C., George E., Yang K-G., Stoming T. A., Huisman T. H. J. Three novel mutations leading to β-thalassemia. Abstract: 31st Annual Meeting of the American Society of Hematology, Atlanta, December, 1989, Blood, in press
  • Kalaydjieva L., Eigel A., Argiris A., Horst J. The molecular basis of β-thalassemia in Bulgaria. Abstract: 3rd International Conference on Thalassemia and the Hemoglobin-opathies, Sardinia, April, 1989, 43
  • Kazazian H. H., Jr., Orkin S. H., Boehm C. D., Sexton J. P., Antonarakis S. E. β-Thalassemia due to deletion of the nucleotide which is substituted in sickle cell anemia. Am. J. Hum. Genet. 1983; 35: 1028
  • Kazazian H. H., Jr., Orkin S. H., Antonarakis S. E., Sexton J. P., Boehm C. D., Goff S. C., Waber P. G. Molecular characterization of seven β-thalassemia mutations in Asian Indians. EMBO J. 1984; 3: 593
  • Kazazian H. H., Jr., Orkin S. H., Boehm C. D., Goff S. C., Wong C., Dowling C. E., Newburger P. E., Knowlton P. G., Brown V., Donis-Keller H. Characterization of a spontaneous mutation to a β-thalassemia allele. Am. J. Hum. Genet. 1986; 38: 860
  • Kazazian H. H., Jr., Boehm C. D. Molecular basis and prenatal diagnosis of β-thalassemia. Blood 1988; 72: 1107
  • Kazazian H. H., Jr. 1989, Personal communication
  • Kinniburgh A. J., Maquat L. E., Schedl T., Rachmilewitz E., Ross J. mRNA-deficient β-thalassemia resuls from a single nucleotide deletion. Nucleic Acids Res. 1982; 10: 5421
  • Kimura A., Matsunaga E., Takihara Y., Nakamura T., Tagaki Y. Structural analysis of a β-thalassemia gene found in Taiwan. J. Biol. Chem. 1983; 258: 2748
  • Kobayashi Y., Fukumaki Y., Komatsu N., Ohba Y., Miyaji T., Miura Y. A novel globin structural mutant, Showa-Yakushiji (βllO Leu→Pro) causing a β-thalassemia phenotype. Blood 1987; 70: 1688
  • Kollia P., Gonzalez-Redondo J. M., Stoming T. A., Loukopulos D., Politis C., Huisman T. H. J. Frameshift codon 5 [FSC-5 (-CT)] thalassemia; a novel mutation detected in a Greek patient. Hemoglobin, in press
  • Lapoumeroulie C., Pagnier J., Bank A., Labie D., Krishnamoorthy R. β-Thalassemia due to a novel mutation in IVS-1 sequence donor site consensus creating a restriction site. Biochem. Biophys. Res. Commun. 1986; 139: 709
  • Maggio R., D'Marzo P., Lo Gioco A., Giambona S., Sammarco M., Renda E., D'Alcamo M. A., Marino F., Di Tarpani F., Caroni F., Kazazian H. H., Jr. β-Thalassemia mutations and its applicability to prenatal diagnosis in Sicily. Abstract: XXIII Congress of the International Society of Hematology, Milan, August, 1988, 225
  • Metherall J. E., Collins F. S., Pan J., Weissman S. M., Forget B. G. β-Thalassemia caused by a base substitution that creates an alternative splice acceptor site in an intron. EMBO J. 1986; 5: 2551
  • Orkin S. H., Goff S. C. Nonsense and frameshift mutations in β-thalassemia detected in cloned β-globin genes. J. Biol. Chem. 1981; 256: 9782
  • Orkin S. H., Kazazian H. H., Jr., Antonarakis S. E., Goff S. C., Boehm C. D., Sexton J. P., Waber P. G., Giardina P. J. V. Linkage of β-thalassaemia mutations and β-globin gene polymorphisms with DNA polymorphisms in human β-globin gene cluster. Nature 1982a; 296: 627
  • Orkin S. H., Kazazian H. H., Jr., Antonarakis S. E., Ostrer H., Goff S. C., Sexton J. P. Abnormal RNA processing due to the exon mutation of the βE-globin gene. Nature 1982b; 300: 768
  • Orkin S. H., Sexton J. P., Cheng T-C., Goff S. C., Giardina P. J. V., Lee J. I., Kazazian H. H., Jr. ATA box transcription mutation in β-thalassemia. Nucleic Acids Res. 1983a; 11: 4727
  • Orkin S. H., Sexton J. P., Goff S. C., Kazazian H. H., Jr. Inactivation of an acceptor RNA splice site by a short deletion in β-thalassemia. J. Biol. Chem. 1983b; 258: 7249
  • Orkin S. H., Antonarakis S. E., Kazazian H. H., Jr. Base substitution at position -88 in a β-thalassemic globin gene: Further evidence for the role of distal promoter element ACACCC. J. Biol. Chem. 1984a; 259: 8679
  • Orkin S. H., Antonarakis S. E., Loukopoulos D. Abnormal processing of βKnossos RNA. Blood 1984b; 64: 311
  • Orkin S. H., Cheng T-C., Antonarakis S. E., Kazazian H. H., Jr. Thalassemia due to a mutation in the cleavagepolyadenylation signal of the human β-globin gene. EMBO J. 1985; 4: 453
  • Padanilam B. J., Huisman T. H. J. The β-thalassemia in an American Black family is due to a single nucleotide substitution in the acceptor splice junction of the second intervening sequence. Am. J. Hematol. 1986; 22: 259
  • Podda A., Galanello R., Maccioni L., Melis M. A., Perseus L., Ruggeri R., Addis M., Cao A. A new unstable hemoglobin variant producing a β-thalassemia-like phenotype. Abstract: 3rd International Conference on Thalassemia and the Hemoglobinopathies, Sardinia, April, 1989, 51
  • Poncz M., Ballantine M., Solowiejczyk D., Barak I., Schwartz E., Surrey S. β-Thalassemia in a Kurdish Jew. J. Biol. Chem. 1983; 257: 5994
  • Ristaldi M. S., Loudiance G., Murdu S., Casula L., Porcu S., Sciarratta G. V., Agosti S., Parodi M. I., Leone D., Camaschella C., Serra A., Cao A., Pirastu M. Characterization of molecular basis of atypical β-thalassemia. Abstract: 3rd International Conference on Thalassemia and the Hemoglobinopathies, Sardinia, April, 1989, 45
  • Schnee J., Griese E. V., Eigel A., Horst J. β-Thalassemia gene analysis in a Turkish family reveals a 7 bp deletion in the coding region. Blood 1989; 73: 2224
  • Spritz R. A., Jagadeeswaran P., Choudary P. V., Biro P. A., Elder J. T., de Riel J. K., Manley J. L., Forget B. G., Weissman S. M. Base substitution in an intervening sequence of a β+-thalassemic human globin gene. Proc. Natl. Acad. Sci. USA 1981; 78: 2455
  • Takihara Y., Nakamura T., Yamada H., Takagi Y., Kukumaki Y. A novel mutation in the TATA box in a Japanese patient with β+-thalassemia. Blood 1986; 67: 547
  • Trecartin R. F., Liebhaber S. A., Chang J. C., Lee Y. W., Kan Y. W. β-Thalassemia in Sardinia is caused by a nonsense mutation. J. Clin. Invest. 1981; 68: 1012
  • Treisman R., Proudfoot N. J., Shander M., Maniatis T. A single base change at a splice site in a β-thalassemic gene causes abnormal RNA splicing. Cell 1982; 29: 903
  • Treisman R., Orkin S. H., Maniatis T. Specific transcription and RNA splicing defects in five cloned β-thalas-saemia genes. Nature 1983; 302: 591
  • Westaway D., Williamson R. An intron nucleotide sequence variant in a clone β+-thalassemia globin gene. Nucleic Acids Res. 1981; 9: 1777
  • Wong C., Antonarakis S. E., Goff S. C., Orkin S. H., Boehm C. D., Kazazian H. H., Jr. On the origin and spread of β-thalassemia: Recurrent observation of four mutations in different ethnic groups. Proc. Natl. Acad. Sci. USA 1986; 83: 6529
  • Wong C., Dowling C. E., Saiki R. K., Higuchi R. G., Erlich H. A., Kazazian H. H., Jr. Characterization of β-thalas-saemia mutations using direct genomic sequencing of amplified single copy DNA. Nature 1987; 330: 384
  • Wong C., Antonarakis S. E., Goff S. C., Orkin S. H., Forget B. G., Nathan D. G., Giardina P. J. V., Kazazian H. H., Jr. β-Thalassemia due to two novel nucleotide substitutions in consensus acceptor splice sequences of the β-globin gene. Blood 1989; 73: 914
  • Yang K. G., Kutlar F., George E., Wilson J. B., Kutar A., Stoming T. A., Gonzalez-Redondo J. M., Huisman T. H. J. Molecular characterization of β-globin gene mutations in Malay patients with Hb E-β-thalassaemia and thalassaemia major. Br. J. Haematol. 1989; 72: 73
  • Anand R., Boehm C. D., Kazazian H. H., Jr., Vanin E. F. Molecular characterization of a β-thalassemia resulting from a 1.4 kb deletion. Blood 1988; 72: 636
  • Aulehla-Scholtz C., Spielberg R., Horst J. A β-thal-assemia mutant caused by a 300 bp deletion in the human β-globin gene. Hum. Genet. 1989; 81: 298
  • Diaz-Chico J. C., Yang K. G., Kutlar A., Reese A. L., Aksoy M., Huisman T. H. J. An ∼ 300 bp deletion involving part of the 5′ β-globin gene region is observed in members of a Turkish family with β-thalassemia. Blood 1987; 70: 583
  • Flavell R. A., Bernards B., Kooter J. M., de Boer E., Little P. F.R., Annison G., Williamson O. The structure of the human β-globin gene in β-thalassemia. Nucleic Acids Res. 1979; 8: 2749
  • Gilman J. G., Huisman T. H. J., Abels J. Dutch β-thalassemia: A 10 kilobase DNA deletion associated with significant γ-chain production. Br. J. Haematol. 1984; 56: 339
  • Gilman J. G. The 12.6 kilobase deletion in Dutch β-thalas-semia. Br. J. Haematol. 1987; 67: 369
  • Gonzalez-Redondo J. M., Kattamis C., Huisman T. H. J. Characterization of three types of β-thalassemia resulting from a partial deletion of the β-globin gene. Hemoglobin 1989; 13: 377
  • Orkin S. H., Old J. M., Weatherall D. J., Nathan D. G. Partial deletion of β-globin gene DNA in certain patients with β-thalassemia. Proc. Natl. Acad. Sci. USA 1979; 76: 2400
  • Orkin S. H., Kolodner R., Michelson A., Husson R. Cloning and direct examination of a structurally abnormal human β-thalassemia globin gene. Proc. Natl. Acad. Sci. USA 1980; 77: 3558
  • Padanilam B. J., Felice A. E., Huisman T. H. J. Partial deletion of the 5′ β-globin gene region causes β-thalassemia in members of an American Black family. Blood 1984; 64: 941
  • Popovitch B. W., Rosenblatt D. S., Kendall A. G., Nishi-Oka Y. Molecular characterization of an atypical β-thalassemia caused by a large deletion in the 5′ β-globin gene region. Am. J. Hum. Genet. 1986; 39: 797
  • Thein S. L., Hesketh C., Brown J. M., Anstey A. V., Weatherall D. J. Molecular characterization of a high A2 β-thalassemia by direct sequencing of single strand enriched amplified genomic DNA. Blood 1989; 73: 924

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