During the switch from human ?- (fetal) to ?- (adult) globin gene expression, the ? and ? genes are expressed competitively by an alternating transcription mechanism. The -50 region of the ? gene promoter has been proposed to be responsible for the early competitive advantage of the ? genes and to act as a stage selector element (SSE) in hemoglobin switching. We analyzed the effect of mutating the -50 region of the ? gene in the presence of a competing ? gene in transgenic mice. This shows that the -50 region does not affect silencing of the ? gene in early development and does not act as a stage selector. However, it affects the ratio of ? versus ? gene expression in the early, but not later, stages of fetal development. Interestingly, both the wild-type and mutant minilocus constructs show a higher frequency of alternate transcription than observed in the complete locus, suggesting that sequences normally present between the ? and ? genes facilitate the interaction of the locus control region (LCR) and ?-globin gene in the complete locus.
The role of the -50 region of the human ?-globin gene in switching
Ristaldi Maria Serafina;
2001
Abstract
During the switch from human ?- (fetal) to ?- (adult) globin gene expression, the ? and ? genes are expressed competitively by an alternating transcription mechanism. The -50 region of the ? gene promoter has been proposed to be responsible for the early competitive advantage of the ? genes and to act as a stage selector element (SSE) in hemoglobin switching. We analyzed the effect of mutating the -50 region of the ? gene in the presence of a competing ? gene in transgenic mice. This shows that the -50 region does not affect silencing of the ? gene in early development and does not act as a stage selector. However, it affects the ratio of ? versus ? gene expression in the early, but not later, stages of fetal development. Interestingly, both the wild-type and mutant minilocus constructs show a higher frequency of alternate transcription than observed in the complete locus, suggesting that sequences normally present between the ? and ? genes facilitate the interaction of the locus control region (LCR) and ?-globin gene in the complete locus.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.