Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hemoglobin Fannin-Lubbock was found in a 9-year-old Mexican-American female. The abnormal hemoglobin was detected as a fast-moving variant by electrophoresis on cellulose acetate at pH 8.4. Structural analysis indicated a substitution in the beta-chain of aspartic acid for glycine at position 119, a position involved in the alpha1beta1 contact of the hemoglobin tetramer. This contact between unlike chains is larger and undergoes a smaller shift during the process of oxygenation and deoxygenation that the alpha1beta2 contact (Perutz, M.F., Muirhead, H., Cox, J.M. and Goaman, L.C.G. (1968) Nature 219, 131-139). Mutations in this contact tend to cause slight or no changes in functional behavior. Apart from a mild anemia, the propositus did not exhibit any obvious clinical symptoms.
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PMID:Hemoglobin Fannin-Lubbock [alpha2 beta 2 119 (GH2) Gly replaced by Asp]. A new hemoglobin variant at the alpha1 beta 1 contact. 1 28

An electrophoretically fast-moving hemoglobin variant was found in a 2-yr-old boy who was referred for evaluation with findings of iron deficiency anemia. The anemia was corrected, and no hematologic abnormality remained after treatment with iron. Oxygen affinity of the blood was normal, and no evidence was found of instability of the variant hemoglobin. Structural studies demonstrated a substitution of aspartic acid for alanine at beta76 (E20). This change did not appear to cause any functional disruption of the hemoglobin in this patient, as would be predicted by the position of the affected animo acid residue on the surface of the molecule.
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PMID:Hemoglobin J-Chicago (beta76(E20) Ala yields Asp): a new hemoglobin variant resulting from substitution of an external residue. 16 59

A screening survey for abnormal hemoglobins at a hospital in Mizunami city, Gifu prefecture, Japan detected a fast-moving variant of hemoglobin in a family of Japanese origin. The abnormal hemoglobin constitutes about 45 percent of the total hemoglobin from the propositus and another carrier in the family, but neither of these persons had anemia, jaundice, cyanosis or splenomegaly. Structural analysis of this hemoglobin revealed that the amino acid substitution was at residue 83 in the beta chain, where a glycine was replaced by an aspartic acid. This hemoglobin variant has been previously reported in a Greek child (hemoglobin Pyrgos) (1). Oxygen affinity of hemoglobin Pyrgos was found to be normal.
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PMID:Hemoglobin Pyrgos (beta83 Gly replaced by Asp) in a Japanese family. 89 27

During the course of a survey, a new hemoglobin, designated hemoglobin Yoshizuka, has been encountered in a Japanese family. Clinically, mild anemia was noted in five of six heterozygous individuals but no other significant abnormalities were found. Hemoglobin Yoshizuka is characterized by the substitution of aspartic acid for asparagine at the tenth residue of the G helix in the beta-chain. Reduced oxygen affinity with almost normal heme-heme interaction was found to be a property of this abnormal hemoglobin. The asparagine residue G10(108)beta lies in the internal cavity of the tetrameric molecule and its main chain carbonyl is thought to be hydrogen bonded to histidine G10(103)alpha at the region of contact between alpha- and beta-chains. It would appear likely that the introduction of a carboxyl group into the central cavity might result in interactions between the polar groups and the substituted side chain, disrupting the system of hydrogen bonds which contribute to the stability of the contacts between unlike subunits.
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PMID:Hemoglobin Yoshizuka (G10(108)beta asparagine--aspartic acid): a new variant with a reduced oxygen affinity from a Japanese family. 535 45

Electrophoretic analysis of a hemolysate from a young man undergoing a routine physical examination revealed an abnormal hemoglobin with a mobility similar to Hb S on cellulose acetate (pH, 8.4). This new variant, designated Hb Connecticut, was found in three generations of a family of Polish descent. Several individuals possessing the variant exhibited mild anemia. Structural analysis of the abnormal beta-chain indicated that the amino acid substitution was at position 21 (B3), and involved the replacement of aspartic acid with glycine. Oxygen dissociation studies revealed low oxygen affinity. The alkaline Bohr effect and the degree of cooperativity were unchanged. Analysis of the crystal structure of the variant suggested that the low oxygen affinity was due to the possible disruption of salt bridges between aspartic acid 21(B3) and lysines 61(ES) and 65(E9), changes that could lead to steric interference in oxygen binding.
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PMID:Hemoglobin connecticut (beta 21 (B3) Asp leads to Gly): a hemoglobin variant with low oxygen affinity. 730 5

We have identified a severely unstable hemoglobin variant through sequencing of amplified DNA involving the alpha 1-globin gene; the mutation is located in codon 59 (CCG CAG) and results in a Gly-->Asp replacement. This amino acid substitution concerns a glycine residue at an internal position in the E helix, which is in close contact with a glycine residue of the B helix; introduction of the larger and charged aspartic acid residue greatly affects the stability of the molecule. This variant was present in association with a common alpha-thalassemia-1 deletion [-(alpha)20.5 kb] in two adults and caused a severe type of Hb H disease with anemia, low levels of Hb A2, increased zeta chain, and Hb Bart's. In vitro chain synthesis in reticulocytes showed a high specific activity of the variant alpha chain. Only a minute quantity of Hb H was present but instead about 10% of Hb Bart's was observed. The increased synthesis of gamma chains was likely due to specific characteristics of a chromosome with haplotype #3, which was present in both patients. The same family was studied 18 years ago; the improved methodology presently available has led to a corrected diagnosis for these patients.
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PMID:Hb Adana or alpha 2(59)(E8)Gly-->Asp beta 2, a severely unstable alpha 1-globin variant, observed in combination with the -(alpha)20.5 Kb alpha-thal-1 deletion in two Turkish patients. 823 99

DNA sequencing of the coding region of the erythroid 5-aminolaevulinate synthase (ALAS2) cDNA from a male with pyridoxine-responsive sideroblastic anaemia revealed a missense mutation C1622G and a closely linked polymorphism C1612A in exon 10 of the gene. Sequence analysis of the genomic DNA from other family members revealed that the proband's mother and daughter were heterozygous carriers of the mutation, consistent with the X-linked inheritance. The C1622G mutation results in a histidine to aspartic acid substitution at amino acid residue 524. The histidine residue is conserved in both the erythroid and housekeeping ALAS proteins in vertebrates, all other known ALAS proteins and other oxamine synthases that have pyridoxal 5'-phosphate as a co-factor. This histidine is located in a predicted loop, preceding a long alpha-helix region near the carboxy-terminus.
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PMID:Hereditary sideroblastic anaemia due to a mutation in exon 10 of the erythroid 5-aminolaevulinate synthase gene. 948 33

This article is the first report of hemoglobin (Hb) Pyrgos along with other Hbs forming triple-heterozvgous patterns. Of 2 cases, the first occurred in a Thai girl with thalassemic facies, marked anemia, and hepatosplenomegaly, who had Hb Pyrgos in association with Hb H disease with Hb Constant Spring (CS). This case represents a triple heterozygosity comprising Hb Pyrgos, alpha-thalassemia 1, and Hb CS. Hb electrophoresis revealed an abnormal Hb in addition to Hbs CS, A2, A, Bart's, and H. This abnormal Hb moved slightly faster than Hb A but more slowly than Hb Bart's. Polymerase chain reaction revealed that the abnormal Hb was caused by a missense mutation within codon 83 of the beta-globin gene (GGC to GAC) resulting in a glycine-to-aspartic acid substitution, which corresponds to Hb Pyrgos. The patient required blood transfusions by the age of 3 years. A splenectomy was performed when she was 5 years old, after which her hematocrit level remained above 32%. The second case was the patient's older sister who was also triple heterozygous (Hb Pyrgos, E, and CS) but was healthy.
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PMID:Triple heterozygosity of a hemoglobin variant: hemoglobin Pyrgos with other hemoglobinopathies. 1184 88

We report here 2 patients with chronic nonspherocytic hemolytic anemia (CNSHA) and severe red blood cell (RBC) adenylate kinase (AK) deficiency. One of these patients, a boy of Spanish origin, exhibited a neonatal icterus and splenomegaly and required blood transfusions until the age of 2 years. The other patient was a white, American infant born to parents who were first cousins; he also presented with neonatal icterus and anemia. In neither case was psychomotor impairment observed. The first patient was found to be a compound heterozygote for 2 different missense mutations, 118G>A(Gly40Arg) and 190G>A(Gly64Arg) (cDNA sequence first described by Matsuura et al, 1989). The second patient was homozygous for an in-frame deletion (GAC) from nucleotide (nt) 498 to 500 or nt 501 to 503 of the cDNA sequence, predicting deletion of either aspartic acid (Asp) 140 or 141. The crystal structure of porcine cytosolic AK was used as a molecular model to investigate how these mutations may affect enzyme structure and function.
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PMID:Red cell adenylate kinase deficiency: molecular study of 3 new mutations (118G>A, 190G>A, and GAC deletion) associated with hereditary nonspherocytic hemolytic anemia. 1264 62

An attenuated chicken anaemia virus (CAV) isolate, cloned isolate 10, which was molecularly cloned from the Cuxhaven-1 CAV after 173 cell-culture passages, was shown previously to recover pathogenicity following 10 passages in young chicks. The consensus nucleotide sequence of the 'revertant' (Rev) virus, present as a tissue homogenate, differed from cloned isolate 10 at a single nucleotide residue (nucleotide 1739) that changed amino acid 287 of the capsid protein from alanine to aspartic acid. Subjecting Rev virus to 10 cell-culture passages reselected viruses with an alanine at this amino acid position. Experimental infections using a molecularly cloned Rev virus isolate demonstrated that the mutation at nucleotide 1739 was not in itself responsible for the recovery of pathogenicity exhibited by the Rev virus. Additional sequence analyses of cloned amplicons provided evidence that the Rev virus population comprised minor, genetically different subpopulations, and provided an indication of CAV's potential for genetic change.
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PMID:Investigation of the unstable attenuation exhibited by a chicken anaemia virus isolate. 1758 61


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