Your search keyword '"Papachatzopoulou A"' showing total 12 results

1. Thalassaemia mutations within the 5′UTR of the human β-globin gene disrupt transcription

Author

Sgourou, Argyro, Routledge, Samantha, Antoniou, Michael, Papachatzopoulou, Adamantia, Psiouri, Lambrini, and Athanassiadou, Aglaia

Published

2004

2. The β-globin C→G mutation at 6 bp 3′ to the termination codon causes β-thalassaemia by decreasing the mRNA level

Author

Sgourou, Argyro, Papachatzopoulou, Adamandia, Psiouri, Lambrini, Antoniou, Michael, Zoumbos, Nicholas, Gibbs, Richard, and Athanassiadou, Aglaia

Published

2002

3. Thalassaemia mutations within the 5′UTR of the human β -globin gene disrupt transcription

Author

Adamantia Papachatzopoulou, Argyro Sgourou, Aglaia Athanassiadou, Michael Antoniou, Lambrini Psiouri, and Samantha Routledge

Subjects

Untranslated region, Five prime untranslated region, Gene expression, Mutant, Wild type, MRNA transport, Hematology, Biology, Gene, Molecular biology, Locus control region

Abstract

The mechanisms by which mutations within the 5' untranslated region (UTR) of the human beta-globin gene (HBB) cause thalassaemia are currently not well understood. We present here the first comprehensive comparative functional analysis of four 'silent' mutations in the human beta-globin 5'UTR, namely: +10(-T), +22(G --> A), +33(C --> G) and +(40-43)(-AAAC), which are present in patients with beta-thalassaemia intermedia. Expression of these genes under the control of the beta-globin locus control region in stable transfected murine erythroleukaemia cells showed that all four mutations decreased steady state levels of mRNA to 61.6%, 68%, 85.2% and 70.6%, respectively, compared with the wildtype gene. These mutations did not interfere with either mRNA transport from the nucleus to the cytoplasm, 3' end processing or mRNA stability. Nuclear run-on experiments demonstrated that mutations +10(-T) and +33(C --> G) reduced the rate of transcription to a degree that fully accounted for the observed lower level of mRNA accumulation, suggesting a disruption of downstream promoter sequences. Interestingly, mutation +22(G --> A) decreased the rate of transcription to a low degree, indicating the existence of a mechanism that acts post-transcriptionally. Generally, our data demonstrated the significance of functionally analysing mutants of this type in the presence of a full complement of transcriptional regulatory elements within a stably integrated chromatin context in an erythroid cell environment.

Published

2004

4. The β-globin C→G mutation at 6 bp 3′ to the termination codon causes β-thalassaemia by decreasing the mRNA level

Author

Lambrini Psiouri, Michael Antoniou, Aglaia Athanassiadou, Nicholas C. Zoumbos, Adamandia Papachatzopoulou, Argyro Sgourou, and Richard A. Gibbs

Subjects

Untranslated region, Silent mutation, Exon, Messenger RNA, Three prime untranslated region, hemic and lymphatic diseases, Nonsense mutation, RNA, Hematology, Biology, Molecular biology, Stop codon

Abstract

Summary. We have studied the expression of the silent β-thalassaemia term+6 (CG) mutation, at nucleotide 6 after the stop codon within the human β-globin 3′ untranslated regions (3′UTR), by stable transfection in murine erythroleukaemia (MEL) cells. Steady state mRNA levels from transfected MEL cells containing the term+6 mutant allele were reduced by 52–60%, compared with those obtained from the normal β-globin gene, in both total and cytoplasmic RNA fractions, showing that the mutation itself is responsible for the similar data obtained from patients. Upon analysis of nuclear RNA, the term+6 mutation was found to also lower the ratio of cleaved/uncleaved transcripts by 22–30%, thus revealing that it interferes with correct 3′-end formation of β-globin mRNA. The term+6 mutation lies within a polypyrimidine track, similar to that in the β-intervening sequence II (β-IVSII), which is known to be an important contributor to the promotion of premRNA 3′-end formation. We propose that the two polypyrimidine tracks flanking the translated region of exon III of the human β-globin gene may co-operate during β-globin mRNA biogenesis.

Published

2002

5. A novel β-thalassaemia mutation in the 5’untranslated region of the β-globin gene

Author

George M. Maniatis, Richard A. Gibbs, Nicholas C. Zoumbos, Aglaia Athanassiadou, and Adamandia Papachatzopoulou

Subjects

Genetics, Untranslated region, Messenger RNA, Base Sequence, Five prime untranslated region, DNA Mutational Analysis, Molecular Sequence Data, beta-Thalassemia, Chromosome, RNA, Hematology, Biology, Blotting, Northern, Molecular biology, DNA sequencing, Globins, hemic and lymphatic diseases, Mutation (genetic algorithm), Humans, Female, RNA, Messenger, Gene, Aged, Sequence Deletion, Thymidine

Abstract

A thymidine deletion at position +10 of the 5' untranslated region of the beta-globin gene was detected in a beta-thalassaemia intermedia patient carrying a beta(0)39 stop codon mutation on the other chromosome; this new mutation, +10(-T), was detected by automated fluorescent DNA sequencing and verified by dot-blot allele-specific hybridizations. The +10(-T) mutation is a 'silent carrier', is associated with a reduced amount of steady-state beta-globin mRNA, and establishes a connection between the 5' untranslated region of the beta-globin gene and the regulation of its expression.

Published

1994

6. Thalassaemia mutations within the 5'UTR of the human beta-globin gene disrupt transcription

Author

Argyro, Sgourou, Samantha, Routledge, Michael, Antoniou, Adamantia, Papachatzopoulou, Lambrini, Psiouri, and Aglaia, Athanassiadou

Subjects

Transcription, Genetic, RNA Stability, Mutation, beta-Thalassemia, Tumor Cells, Cultured, Gene Expression, Humans, RNA, Messenger, 5' Untranslated Regions, Transfection, Globins

Abstract

The mechanisms by which mutations within the 5' untranslated region (UTR) of the human beta-globin gene (HBB) cause thalassaemia are currently not well understood. We present here the first comprehensive comparative functional analysis of four 'silent' mutations in the human beta-globin 5'UTR, namely: +10(-T), +22(G --A), +33(C --G) and +(40-43)(-AAAC), which are present in patients with beta-thalassaemia intermedia. Expression of these genes under the control of the beta-globin locus control region in stable transfected murine erythroleukaemia cells showed that all four mutations decreased steady state levels of mRNA to 61.6%, 68%, 85.2% and 70.6%, respectively, compared with the wildtype gene. These mutations did not interfere with either mRNA transport from the nucleus to the cytoplasm, 3' end processing or mRNA stability. Nuclear run-on experiments demonstrated that mutations +10(-T) and +33(C --G) reduced the rate of transcription to a degree that fully accounted for the observed lower level of mRNA accumulation, suggesting a disruption of downstream promoter sequences. Interestingly, mutation +22(G --A) decreased the rate of transcription to a low degree, indicating the existence of a mechanism that acts post-transcriptionally. Generally, our data demonstrated the significance of functionally analysing mutants of this type in the presence of a full complement of transcriptional regulatory elements within a stably integrated chromatin context in an erythroid cell environment.

Published

2004

7. The beta-globin C--G mutation at 6 bp 3' to the termination codon causes beta-thalassaemia by decreasing the mRNA level

Author

Argyro, Sgourou, Adamandia, Papachatzopoulou, Lambrini, Psiouri, Michael, Antoniou, Nicholas, Zoumbos, Richard, Gibbs, and Aglaia, Athanassiadou

Subjects

Male, Mutation, beta-Thalassemia, Codon, Terminator, Humans, RNA, Messenger, Child, Transfection, Globins

Abstract

We have studied the expression of the silent beta-thalassaemia term+6 (C--G) mutation, at nucleotide 6 after the stop codon within the human beta-globin 3' untranslated regions (3'UTR), by stable transfection in murine erythroleukaemia (MEL) cells. Steady state mRNA levels from transfected MEL cells containing the term+6 mutant allele were reduced by 52-60%, compared with those obtained from the normal beta-globin gene, in both total and cytoplasmic RNA fractions, showing that the mutation itself is responsible for the similar data obtained from patients. Upon analysis of nuclear RNA, the term+6 mutation was found to also lower the ratio of cleaved/uncleaved transcripts by 22-30%, thus revealing that it interferes with correct 3'-end formation of beta-globin mRNA. The term+6 mutation lies within a polypyrimidine track, similar to that in the beta-intervening sequence II (beta-IVSII), which is known to be an important contributor to the promotion of premRNA 3'-end formation. We propose that the two polypyrimidine tracks flanking the translated region of exon III of the human beta-globin gene may co-operate during beta-globin mRNA biogenesis.

Published

2002

8. A novel β-thalassaemia mutation in the 5’untranslated region of the β-globin gene

Author

Athanassiadou, Aglaia, primary, Papachatzopoulou, Adamandia, additional, Zoumbos, Nicholas, additional, Maniatis, George M., additional, and Gibbs, Richard, additional

Published

1994

9. research paper Thalassaemia mutations within the 5′UTR of the human β-globin gene disrupt transcription.

Author

Sgourou, Argyro, Routledge, Samantha, Antoniou, Michael, Papachatzopoulou, Adamantia, Psiouri, Lambrini, and Athanassiadou, Aglaia

Subjects

GENETIC mutation, GLOBIN gene expression, GENE expression, ERYTHROCYTE membranes, HEMOLYTIC anemia, NUCLEOPROTEINS

Abstract

The mechanisms by which mutations within the 5′ untranslated region (UTR) of the human β-globin gene ( HBB) cause thalassaemia are currently not well understood. We present here the first comprehensive comparative functional analysis of four ‘silent’ mutations in the human β-globin 5′UTR, namely: +10(−T), +22(G → A), +33(C → G) and +(40–43)(−AAAC), which are present in patients with β-thalassaemia intermedia. Expression of these genes under the control of the β-globin locus control region in stable transfected murine erythroleukaemia cells showed that all four mutations decreased steady state levels of mRNA to 61·6%, 68%, 85·2% and 70·6%, respectively, compared with the wildtype gene. These mutations did not interfere with either mRNA transport from the nucleus to the cytoplasm, 3′ end processing or mRNA stability. Nuclear run-on experiments demonstrated that mutations +10(−T) and +33(C → G) reduced the rate of transcription to a degree that fully accounted for the observed lower level of mRNA accumulation, suggesting a disruption of downstream promoter sequences. Interestingly, mutation +22(G → A) decreased the rate of transcription to a low degree, indicating the existence of a mechanism that acts post-transcriptionally. Generally, our data demonstrated the significance of functionally analysing mutants of this type in the presence of a full complement of transcriptional regulatory elements within a stably integrated chromatin context in an erythroid cell environment. [ABSTRACT FROM AUTHOR]

Published

2004

10. Thalassaemia mutations within the 5'UTR of the human beta-globin gene disrupt transcription.

Author

Sgourou A, Routledge S, Antoniou M, Papachatzopoulou A, Psiouri L, and Athanassiadou A

Subjects

Gene Expression, Humans, RNA Stability, RNA, Messenger genetics, Transcription, Genetic, Transfection, Tumor Cells, Cultured, 5' Untranslated Regions genetics, Globins genetics, Mutation, beta-Thalassemia genetics

Abstract

The mechanisms by which mutations within the 5' untranslated region (UTR) of the human beta-globin gene (HBB) cause thalassaemia are currently not well understood. We present here the first comprehensive comparative functional analysis of four 'silent' mutations in the human beta-globin 5'UTR, namely: +10(-T), +22(G --> A), +33(C --> G) and +(40-43)(-AAAC), which are present in patients with beta-thalassaemia intermedia. Expression of these genes under the control of the beta-globin locus control region in stable transfected murine erythroleukaemia cells showed that all four mutations decreased steady state levels of mRNA to 61.6%, 68%, 85.2% and 70.6%, respectively, compared with the wildtype gene. These mutations did not interfere with either mRNA transport from the nucleus to the cytoplasm, 3' end processing or mRNA stability. Nuclear run-on experiments demonstrated that mutations +10(-T) and +33(C --> G) reduced the rate of transcription to a degree that fully accounted for the observed lower level of mRNA accumulation, suggesting a disruption of downstream promoter sequences. Interestingly, mutation +22(G --> A) decreased the rate of transcription to a low degree, indicating the existence of a mechanism that acts post-transcriptionally. Generally, our data demonstrated the significance of functionally analysing mutants of this type in the presence of a full complement of transcriptional regulatory elements within a stably integrated chromatin context in an erythroid cell environment.

Published

2004

11. The beta-globin C-->G mutation at 6 bp 3' to the termination codon causes beta-thalassaemia by decreasing the mRNA level.

Author

Sgourou A, Papachatzopoulou A, Psiouri L, Antoniou M, Zoumbos N, Gibbs R, and Athanassiadou A

Subjects

Child, Codon, Terminator, Humans, Male, RNA, Messenger metabolism, Transfection, Globins genetics, Mutation genetics, beta-Thalassemia genetics

Abstract

We have studied the expression of the silent beta-thalassaemia term+6 (C-->G) mutation, at nucleotide 6 after the stop codon within the human beta-globin 3' untranslated regions (3'UTR), by stable transfection in murine erythroleukaemia (MEL) cells. Steady state mRNA levels from transfected MEL cells containing the term+6 mutant allele were reduced by 52-60%, compared with those obtained from the normal beta-globin gene, in both total and cytoplasmic RNA fractions, showing that the mutation itself is responsible for the similar data obtained from patients. Upon analysis of nuclear RNA, the term+6 mutation was found to also lower the ratio of cleaved/uncleaved transcripts by 22-30%, thus revealing that it interferes with correct 3'-end formation of beta-globin mRNA. The term+6 mutation lies within a polypyrimidine track, similar to that in the beta-intervening sequence II (beta-IVSII), which is known to be an important contributor to the promotion of premRNA 3'-end formation. We propose that the two polypyrimidine tracks flanking the translated region of exon III of the human beta-globin gene may co-operate during beta-globin mRNA biogenesis.

Published

2002

12. A novel beta-thalassaemia mutation in the 5' untranslated region of the beta-globin gene.

Author

Athanassiadou A, Papachatzopoulou A, Zoumbos N, Maniatis GM, and Gibbs R

Subjects

Aged, Blotting, Northern, DNA Mutational Analysis, Female, Humans, Molecular Sequence Data, RNA, Messenger genetics, Sequence Deletion, Thymidine genetics, beta-Thalassemia blood, Base Sequence genetics, Globins genetics, beta-Thalassemia genetics

Abstract

A thymidine deletion at position +10 of the 5' untranslated region of the beta-globin gene was detected in a beta-thalassaemia intermedia patient carrying a beta(0)39 stop codon mutation on the other chromosome; this new mutation, +10(-T), was detected by automated fluorescent DNA sequencing and verified by dot-blot allele-specific hybridizations. The +10(-T) mutation is a 'silent carrier', is associated with a reduced amount of steady-state beta-globin mRNA, and establishes a connection between the 5' untranslated region of the beta-globin gene and the regulation of its expression.

Published

1994