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Studies of some mutants of human hemoglobin including a new oC-variant: Hb mahidolPootrakul, Sanga January 1970 (has links)
Hemoglobinopathies, the disorders of hemoglobin structure and synthesis, can be divided into two forms of clinical manifestation, namely thalassemias and abnormal hemoglobins. Thalassemia appears to involve an abnormal gene which results in a reduced rate of globin synthesis and it presents clinically as a hypochromic microcytic anemia. Its cause lies in some abnormality of the regulation of globin synthesis. An abnormal hemoglobin is usually the result of a mutation of one base in a codon triplet of the structural gene for one or other hemoglobin chain which leads to an amino acid substitution in the primary structure of the globin.
In this study, the biochemical characterization of five samples of abnormal hemoglobin which were obtained from patients at Vancouver General Hospital, Vancouver, B.C. and Siriraj Hospital, Bangkok is described.
In the first case from V.G.H., the propositus, a 17 month old Chinese girl showed a fast (anionic) abnormal hemoglobin from birth. In a biochemical investigation of the variant from her father it was found that the glycine residue 56 in the β-chain was substituted by aspartic acid. This mutant is identical to that previously designated as HbJ Bangkok ([formula omitted]).
The second case, a 21 year old Thai male in Bangkok was shown to be a double heterozygote with both a slow and a fast abnormal hemoglobin and an absence of HbA upon starch gel electrophoresis. Structural characterization of the separated globin chain of both variants indicated that the mutation in the slow variant occurred at residue 26 of β-chain where glutamic acid was replaced by lysine. This mutation is similar to that previously described as HbE ([formula omitted]). The fast variant showed an amino acid alteration at position 113 of β-chain where valine was substituted by glutamic acid. This mutation is identical with Hb New York ([formula omitted]). A double heterozygote involving both HbE and Hb New York has not been previously described.
The other three samples from unrelated patients in Bangkok revealed a slow mutant on starch gel electrophoresis and biochemical studies showed that residue 74 in the α-chain was changed from an aspartyl to a histidyl residue. This mutation has not been previously described. It is proposed that this new hemoglobin ([formula omitted]) be called Hb Mahidol after Mahidol University in Bangkok. In one of the three patients showing Hb Mahidol interaction with α-thalassemia (α-thalassemia-Hb Mahidol) occurs. This results in the clinical features of chronic hemolytic anemia and a total absence of HbA which is replaced by Hb Mahidol together with some HbH([formula omitted]). / Medicine, Faculty of / Pathology and Laboratory Medicine, Department of / Graduate
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The use of mass spectrometry and DNA technology in the investigation of hemoglobin disorders /Rai, Dilip K., January 2003 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.
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An investigation into the ancestry of the Malagasy population using variation in the alpha- and beta-globin gene clusterHewitt, Rachel 07 April 2014 (has links)
Thesis (M.Sc. (Med.))--University of the Witwatersrand, Faculty of Health Sciences, 1998. / The issue of Malagasy ancestry has been controversial, and has still not been
completely resolved. The historical, linguistic, archaeological and some genetic
evidence points to the fact that modern Malagasy are the descendants of immigrants
who arrived on the island over the past 2000 years, from South and Southeast Asia,
Africa and the Near East. In more recent centuries, mainly in the twentieth century,
there have been significant numbers of Indian, Chinese and French immigrants. In
addition, archaeological and historical studies of specific regional populations of
Malagasy suggest a complex pattern of internal migration within the island, extending
back in time to the first European contacts with the island in the sixteenth century. The
22 Malagasy ethnic groups may be classified as "highland" or "lowland" depending on
their geographic distribution on the island. Within the ethnic groups, the founding
populations have made different genetic contributions: the highland groups are said to
have a greater Indonesian contribution to their ancestry, while the lowlanders have a
greater African contribution to their ancestry.
Genetic studies on the Malagasy have been limited by small sample sizes, deficiencies
in sampling procedures and in the limited number of polymorphisms studied. In light of
the paucity of written records, the Department of Human Genetics, SAIMR, has
undertaken a large study in Madagascar to reconstruct the biological history of its
people, using genetic variation. This thesis forms a part of this study.
Variation in the a- and p-globin cluster has been extensively studied in many parts of
the world, and has been shown to be population specific, with specific variants having
distinct geographical distributions. Thus haemoglobin and its related disorders have
been the subject of extensive studies for determining the origin(s) of particular
populations. In this study, some of the a- and p-globin variation present in the Malagasy
was characterised. Seven RFLPs/HVRs in the a-globin gene cluster and seven RFLPs
in the p-globin gene cluster were analysed. The common a- and p-globin gene cluster
haplotypes differ between African and Asian populations. Frequencies also vary
between populations in a specific geographical regions. The aim of this study was to
characterise the haplotypes present in the Malagasy, to provide information on the
relative genetic contributions of different populations to the peoples of Madagascar.
DNA samples from randomly selected, haematologically normal individuals were
analysed. Individuals were chosen from six Malagasy ethnic groups: two “highland”
populations (Merina and Betsileo), two “lowland" populations (Antasaka and Tsimiheti)
and two populations from the south-west of the island (Mahafaly and Vezo). The groups
chosen cover a broad range of Madagascar and thus provide some representation of
the Malagasy population as a whole. The number of individuals studied in each ethnic
group are as follows: Merina: 88; Betsileo: 78; Antasaka: 67; Tsimiheti: 67; Mahafaly:
26; Vezo: 25.
The frequencies of the a- and (B-globin RFLP sites and a-globin HVRs in the Malagasy
vere calculated. 5' and 3’ p-globin haplotypes were constructed on the basis of
homozygosity. A maximum-likelihood algorithm was used to obtain frequencies of 5’
P-globin haplotypes that could not be assigned on the basis of homozygosity. These
data were then subject to statistical analysis. The frequencies of the 5’ p-globin
haplotypes (consisting of the five sites Hindi 5' to e, Hindi 11 within Gy and Ay, Hindi
within \|/P and 3' to it) were the most informative data set for comparing the Malagasy
ethnic groups to each other and to other world populations. Unfortunately, the
maximum-likelihood estimates of 5‘ p-globin haplotypes could not be used for
comparative analyses due to the lack of similar data in other populations. However
the strong correlation between the maximum-likelihood frequencies and the
observed frequencies illustrated the ability of the algorithm to determine hapiotype
frequencies from otherwise uninformative individuals.
5’ p-globin haplotypes were assigned unambiguously for 248 Malagasy
chromosomes. Ten haplotypes were found; of these, nine have been reported
previously in other world populations and one has not been reported and hns thus
been called “rare” in this study. The frequencies of unambiguous 5’ p-globin
haplotypes in the Malagasy and the proposed parental populations were initially
analysed with x2 tests. For a more accurate comparison between these
populations, genetic distances were calculated and used for the construction of
phylogenetic trees, principle component analysis was carried out, and a study of
heterozygosity versus distance from the centroid was performed. Admixture
estimates of two African populations and one Indonesian population to Malagasy
ancestry were calculated.
Certain general trends were noted in all the analyses. The results are in agreement
with the historical data which provides evidence for both African and Asian
contributions to Malagasy ancestry. The highlanders were more closely affiliated to
the Indonesian/Polynesian populations, while the south-west groups showed the
strongest associations with the African populations. The lowlanders were
consistently intermediate in position between the highlanders and the south-west
groups, with the Antasaka being slightly more closely related to the African
populations than the Tsimiheti. The Malagasy were shown to have high
heterozygosities, similar to those of African populations, and this high degree of
diversity is probably a reflection of the many sources of ancestry of the Malagasy.
The south-west groups were the furthest outliers in the model of heterozygosity
versus distance from the centroid, suggesting that these groups are the most
genetically admixed of all the Malagasy groups that were studied. Estimates of
ancestral population admixture confirmed these trends, with the highlanders having
the highest proportional contribution by Indonesians (53%), but the lowest total
African contribution (47%), while the south-west groups have the highest Bantu
contribution (65%). The Indonesian and African contributions to the lowlanders are
intermediate between those to highlanders and south-west groups. Overall the
Malagasy subjects included in this study showed a 61% African admixture
contribution and a 39% Indonesian admixture contribution.
It is hoped that the results obtained in this study will contribute to the larger project
concerning the origins of the Malagasy, and that they may be used to shed further
light on the much debated issue of Malagasy ancestry.
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Structural characterization of the fourth component of hemoglobin constant spring /Ratana Sripanitan, Prawase Wasi, January 1983 (has links) (PDF)
Thesis (M.Sc. (Biochemistry))--Mahidol University, 1983.
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The mechanisms of apoptosis in human erythrocytes. / CUHK electronic theses & dissertations collectionJanuary 2013 (has links)
Gao, Minghui. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2013. / Includes bibliographical references (leaves 168-182). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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A search for B-globin gene from a patient with B-thalassemia/hemoglobin E by DNA cloning /Orntipa Sethabutr, Sakol Panyim, January 1983 (has links) (PDF)
Thesis (M.Sc. (Biochemistry))--Mahidol University, 1983.
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Correlação estrutura-função de variantes da hemoglobina humana = Structure-function relations of human hemoglobin variants / Structure-function relations of human hemoglobin variantsJorge, Susan Elisabeth Domingues Costa, 1983- 31 July 2013 (has links)
Orientadores: Maria de Fatima Sonati, Munir Salomão Skaf / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-23T23:13:39Z (GMT). No. of bitstreams: 1
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Previous issue date: 2013 / Resumo: O resumo poderá ser visualizado no texto completo da tese digital / Abstract: The complete abstract is available with the full electronic document / Doutorado / Ciencias Biomedicas / Doutora em Ciências Médicas
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