J. B. Wilson scite author profile

Fifty-seven children who attended a diabetes camp were divided into five groups on the basis of retrospective evaluation of the management of their diabetes mellitus over the previous three or more months. Shortly after their arrival at camp, fasting blood samples were obtained for the measurement of glucose and the quantitation of Hb AI and for hemoglobin typing. Samples were obtained from 12 normal (nondiabetic) camp personnel at the same time. The Hb AI components were measured by the “macrocolumn” procedure of Trivelli et al., by the colorimetric procedure of Flukinger and Winterhalter, and by a new microcolumn procedure employing columns and reagents provided by Isolab, Inc. As might be expected from a number of previous reports by other investigators, there was no significant correlation of the percentage of Hb AI with single fasting blood sugar values. Hb AI tended to decrease as the management of diabetes became more adequate according to clinical ratings. Comparison of the Hb AI (Hb AIa+b+c) determinations showed an acceptable correlation of percentages obtained by the relatively laborious macrocolumn procedure and the more facile microcolumn procedure, indicating that the latter would be clinically useful. Values of Hb AIc obtained by the colorimetric procedure, which has been proposed as a procedure suitable for the clinical laboratory, did not correlate well with Hb AIc values determined by the macrocolumn technique, nor did these show as good an inverse relationship to the ratings of the management of diabetes.

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Molecular characterization of β‐globin gene mutations in Malay patients with Hb E‐β‐thalassaemia and thalassaemia major

Yang

Kutlar

George

et al. 1989

Br J Haematol

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This study concerned the identification of the beta-thalassaemia mutations that were present in 27 Malay patients with Hb E-beta-thalassaemia and seven Malay patients with thalassaemia major who were from West Malaysia. Nearly 50% of all beta-thalassaemia chromosomes carried the G----C substitution at nucleotide 5 of IVS-I; the commonly occurring Chinese anomalies such as the frameshift at codons 41 and 42, the nonsense mutation A----T at codon 17, the A----G substitution at position -28 of the promoter region, and the C----T substitution at position 654 of the second intron, were rare or absent. Two new thalassaemia mutations were discovered. The first involves a frameshift at codon 35 (-C) that was found in two patients with Hb E-beta zero-thalassaemia and causes a beta zero-thalassaemia because a stop codon is present at codon 60. The second is an AAC----AGC mutation in codon 19 that was present on six chromosomes. This substitution results in the production of an abnormal beta chain (beta-Malay) that has an Asn----Ser substitution at position beta 19. Hb Malay is a 'Hb Knossos-like' beta +-thalassaemia abnormality; the A----G mutation at codon 19 likely creates an alternate splicing site between codons 17 and 18, reducing the efficiency of the normal donor splice site at IVS-I to about 60%.

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Hemoglobin Kenya, the product of fusion of γ and β polypeptide chains

Huisman¹,

Wrightstone²,

Wilson³

et al. 1972

Archives of Biochemistry and Biophysics

150

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The occurrence of different levels of ^Gγ chain and of the ^Aγ^T variant of fetal hemoglobin in newborn babies from several countries

et al. 1983

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The gamma chain compositions of the fetal hemoglobins of 2453 newborn babies from East Asian countries (1350 babies), from Italy, Yugoslavia, Bulgaria, and Georgia (417 Caucasian babies), and 686 black babies from Georgia were determined by high pressure liquid chromatography. Unusual results for a limited number of babies were confirmed by chemical analyses, and were evaluated further by family studies. Statistical analyses indicated high gene frequencies for the A gamma T chain in Italian (f = 0.237), Yugoslavian and Bulgarian (f = 0.238), and white Georgia babies (f = 0.224), a lower frequency in Japan (f = 0.178), and India (f = 0.173), and particularly in mainland China (f = 0.079). The A gamma T gene frequency in normal (AA) Black babies was 0.102. When a beta S or beta C mutation was also present this frequency was greatly decreased, particularly in babies with the AC condition (f = 0.036). These results suggest the near absence of the A gamma T mutation on the chromosome also carrying the beta C determinant. Most babies had the expected G gamma values which vary between 60 and 80%, but several (mainly black) babies had higher values (between 80 and 90%), while one normal black baby had a G gamma value of (nearly) 100%. This condition may be a form of A gamma +1-thalassemia and has been discussed in detail elsewhere (Blood 58:491-500, 1981). Thirty-five clinically normal (mainly Chinese, Indian, and Japanese) babies had G gamma values of about 40%. Twenty-six babies had A gamma I values of about 60%, while the remaining nine babies had A gamma T and A gamma I chains in a ratio of either 1 to 2 or 1 to 1. Two additional newborns did not produce any G gamma chains, but had only A gamma I chains or A gamma T chains. Family studies failed to indicate a specific hematological abnormality. These unusual ratios between the G gamma and A gamma (either A gamma I or A gamma T) chains have led to speculations regarding possible genetic abnormalities present in these infants.

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Separation of tryptic peptides of normal and abnormal a, β, γ, and δ hemoglobin chains by high-performance liquid chromatography

Wilson¹,

Lam²,

Pravatmuang³

et al. 1979

Journal of Chromatography A

285

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J. B. Wilson

Determination of the Glycosylated Hemoglobins (Hb AI) with a New Microcolumn Procedure: Suitability of the Technique for Assessing the Clinical Management of Diabetes Mellitus

Molecular characterization of β‐globin gene mutations in Malay patients with Hb E‐β‐thalassaemia and thalassaemia major

Hemoglobin Kenya, the product of fusion of γ and β polypeptide chains

The occurrence of different levels of ^Gγ chain and of the ^Aγ^T variant of fetal hemoglobin in newborn babies from several countries

Separation of tryptic peptides of normal and abnormal a, β, γ, and δ hemoglobin chains by high-performance liquid chromatography

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J. B. Wilson

Determination of the Glycosylated Hemoglobins (Hb AI) with a New Microcolumn Procedure: Suitability of the Technique for Assessing the Clinical Management of Diabetes Mellitus

Molecular characterization of β‐globin gene mutations in Malay patients with Hb E‐β‐thalassaemia and thalassaemia major

Hemoglobin Kenya, the product of fusion of γ and β polypeptide chains

The occurrence of different levels of Gγ chain and of the AγT variant of fetal hemoglobin in newborn babies from several countries

Separation of tryptic peptides of normal and abnormal a, β, γ, and δ hemoglobin chains by high-performance liquid chromatography

Contact Info

Product

Resources

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The occurrence of different levels of ^Gγ chain and of the ^Aγ^T variant of fetal hemoglobin in newborn babies from several countries