IthaID: 88
Names and Sequences
| Functionality: | Globin gene causative mutation | Pathogenicity: | Pathogenic / Likely Pathogenic |
|---|---|---|---|
| Common Name: | CD 26 GAG>AAG [Glu>Lys] | HGVS Name: | HBB:c.79G>A |
| Hb Name: | HbE | Protein Info: | β 26(B8) Glu>Lys |
Context nucleotide sequence:
GGTGAACGTGGATGAAGTTGGTGGT [G>A] AGGCCCTGGGCAGGTTGGTATCAAG (Strand: -)
Protein sequence:
MVHLTPEEKSAVTALWGKVNVDEVGGKALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH
Also known as:
Comments: β codon 26 GAC>AAG [Glu>Lys] change gives rise to HbE, which also activates a cryptic splice site at the junction of exon 1 and intron 1 that causes abnormal alternative splicing and decreased transcription of functional mRNA for the HbE globin chain. Thus the Hb E mutation is both a qualitative defect (because of the amino acid substitution in the globin chain) and a quantitative defect with a β-thalassemia phenotype (because of decreased production of the mutated globin chain). Reduced Hb E synthesis explains Hb E levels in heterozygotes of between 25% to 30%. The homozygous state (Hb EE) manifests as a mild anemia with microcytes and target cells. Coihneritance with other hemoglobin variants (e.g., Hb S, forming Hb SE disease) or beta-thalassemia alleles (i.e., Hb E-β-thalassemia) creates a wide range of clinical severities. For example, Hb E-β0-thalassemia results in symptoms more severe than Hb EE and more closely resembles the severity of β-thalassemia major, requiring regular blood transfusions.
We follow the HGVS sequence variant nomenclature and IUPAC standards.
Phenotype
| Hemoglobinopathy Group: | Thalassaemia and Structural Haemoglobinopathy |
|---|---|
| Hemoglobinopathy Subgroup: | β-thalassaemia, β-chain variant |
| Allele Phenotype: | β+ Thalassaemia |
| Stability: | Unstable |
| Oxygen Affinity: | N/A |
| Associated Phenotypes: |
Haemolytic anaemia [HP:0001878] Ineffective erythropoiesis [HP:0010972] |
Location
| Chromosome: | 11 |
|---|---|
| Locus: | NG_000007.3 |
| Locus Location: | 70673 |
| Size: | 1 bp |
| Located at: | β |
| Specific Location: | Exon 1 |
Other details
| Type of Mutation: | Point-Mutation(Substitution) |
|---|---|
| Effect on Gene/Protein Function: | Cryptic splice site (mRNA Processing), Missense codons (Protein Structure) |
| Ethnic Origin: | SE Asian, European, Far East |
| Molecular mechanism: | N/A |
| Inheritance: | Recessive |
| DNA Sequence Determined: | Yes |
HPLC
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Redistribution and use of the above material is allowed only with permission by Bio-Rad Laboratories, Inc.
To access HPLC images and reports for different variants, use the IthaChrom tool.
| ID | Hb Variant | Gene | Instrument | Method | Area (%) | Ret Time (min) | Comments | ||
|---|---|---|---|---|---|---|---|---|---|
| 564 | HbE | β | D-10 | Dual Kit Program | 41.2 | 2.78 | Association of HbE and beta-thalassaemia. | [PDF] | |
| 462 | HbE | β | D-10 | Dual Kit Program | 28.8 | 2.92 | Association of HbE and Hb Constant Spring | [PDF] | |
| 458 | HbE | β | D-10 | Dual Kit Program | 19.9 | 2.96 | HbE heterozygote with alpha-thal 1 heterozygote. | [PDF] | |
| 433 | HbE | β | D-10 | Dual Kit Program | 29.6 | 2.96 | heterozygote | [PDF] | |
| 335 | HbE | β | D-10 | Dual Kit Program | 87.3 | 2.87 | Homozygote. | [PDF] | |
| 26 | HbE | β | D-10 | Dual Kit Program | 28.9 | 3.15 | Heterozygous | [PDF] | |
| 20 | HbE | β | D-10 | HbA1c Program | 80.8 | 1.58 | Homozygous | [PDF] | |
| 18 | HbE | β | D-10 | HbA1c Program | 31.4 | 1.59 | Heterozygous | [PDF] | |
| 565 | HbE | β | VARIANT | β-thal Short Program | 47 | 3.73 | Association of HbE and beta-thalassaemia. | [PDF] | |
| 463 | HbE | β | VARIANT | β-thal Short Program | 25.3 | 3.68 | Association of HbE and Hb Constant Spring | [PDF] | |
| 459 | HbE | β | VARIANT | β-thal Short Program | 17.7 | 3.64 | HbE heterozygote with alpha-thal 1 heterozygote. | [PDF] | |
| 434 | HbE | β | VARIANT | β-thal Short Program | 25 | 3.63 | heterozygote | [PDF] | |
| 336 | HbE | β | VARIANT | β-thal Short Program | 76.4 | 3.65 | Homozygote. | [PDF] | |
| 567 | HbE | β | VARIANT II | Dual Kit Program | 42.6 | 2.885 | Association of HbE and beta-thalassaemia. | [PDF] | |
| 566 | HbE | β | VARIANT II | β-thal Short Program | 51.6 | 3.69 | Association of HbE and beta-thalassaemia. | [PDF] | |
| 465 | HbE | β | VARIANT II | Dual Kit Program | 27.2 | 2.899 | Association of HbE and Hb Constant Spring | [PDF] | |
| 464 | HbE | β | VARIANT II | β-thal Short Program | 27.1 | 3.68 | Association of HbE and Hb Constant Spring | [PDF] | |
| 461 | HbE | β | VARIANT II | Dual Kit Program | 18.9 | 2.91 | HbE heterozygote with alpha-thal 1 heterozygote. | [PDF] | |
| 460 | HbE | β | VARIANT II | β-thal Short Program | 19.4 | 3.68 | HbE heterozygote with alpha-thal 1 heterozygote. | [PDF] | |
| 436 | HbE | β | VARIANT II | Dual Kit Program | 25.9 | 2.926 | heterozygote | [PDF] | |
| 435 | HbE | β | VARIANT II | β-thal Short Program | 25.1 | 3.65 | heterozygote | [PDF] | |
| 338 | HbE | β | VARIANT II | Dual Kit Program | 69.4 | 2.9 | Homozygote. | [PDF] | |
| 337 | HbE | β | VARIANT II | β-thal Short Program | 69.5 | 3.64 | Homozygote. | [PDF] | |
| 64 | HbE | β | VARIANT II | Dual Kit Program - HbA1c | 85.9 | 1.737 | homozygote | [PDF] | |
| 39 | HbE | β | VARIANT II | Dual Kit Program | 22.4 | 2.969 | Heterozygous | [PDF] | |
| 38 | HbE | β | VARIANT II | Dual Kit Program | 27.6 | 3.65 | Heterozygous | [PDF] | |
| 37 | HbE | β | VARIANT II | β-thal Short Program | 25.1 | 3.66 | Heterozygous | [PDF] | |
| 21 | HbE | β | VARIANT II | HbA1c Program | 80.1 | 1.84 | Homozygous | [PDF] | |
| 19 | HbE | β | VARIANT II | HbA1c Program | 30.3 | 1.86 | Heterozygous | [PDF] |
In silico pathogenicity prediction
Note:
The impact thresholds provided in this section are based on the analyses performed in Tamana et.al. For any given tool, the impact thresholds defined for the set of variants with the same effect on function as the variant examined, are preferred over those defined for the full dataset.
Sequence Viewer
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Frequencies
Publications / Origin
- Flatz G, Pik C, Sringam S, Haemoglobin E and beta-thalassaemia: their distribution in Thailand., Annals of human genetics, 29(2), 151-70, 1965 PubMed
- Fairbanks VF, Oliveros R, Brandabur JH, Willis RR, Fiester RF, Homozygous hemoglobin E mimics beta-thalassemia minor without anemia or hemolysis: hematologic, functional, and biosynthetic studies of first North American cases., American journal of hematology, 8(1), 109-21, 1980 PubMed
- Orkin SH, Kazazian HH, Antonarakis SE, Ostrer H, Goff SC, Sexton JP, Abnormal RNA processing due to the exon mutation of beta E-globin gene., Nature, 300(5894), 768-9, 1982 PubMed
- Kazazian HH, Waber PG, Boehm CD, Lee JI, Antonarakis SE, Fairbanks VF, Hemoglobin E in Europeans: further evidence for multiple origins of the beta E-globin gene., American journal of human genetics, 36(1), 212-7, 1984 PubMed
Created on 2010-06-16 16:13:14,
Last reviewed on 2024-03-07 10:59:36 (Show full history)
| A/A | Date | Curator(s) | Comments |
|---|---|---|---|
| 1 | 2010-06-16 16:13:14 | The IthaGenes Curation Team | Created |
| 2 | 2013-10-15 17:00:14 | The IthaGenes Curation Team | Reviewed. |
| 3 | 2014-04-23 17:23:36 | The IthaGenes Curation Team | Reviewed. Added ClinVar link. |
| 4 | 2023-01-03 16:14:33 | The IthaGenes Curation Team | Reviewed. Text added. |
| 5 | 2024-03-07 10:59:36 | The IthaGenes Curation Team | Reviewed. Chromosome location corrected. |
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IthaGenes was last updated on 2024-11-20 13:24:07