The human embryonic myosin alkali light chain gene : use of alternative promoters and 3' non-coding regions

Recently we have found evidence that the human embryonic myosin alkali light chain (MLC1 emb) gene has two functional promoters and that its mRNAs exhibit heterogeneity in their 3'untranslated regions (UTR). To study this more in detail we have isolated and characterized the human MLC1emb gene....

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Published in	Nucleic acids research Vol. 19; no. 7; pp. 1497 - 1504
Main Authors	ROTTER, M, ZIMMERMAN, K, POUSTKA, A, STARZINSKI-POWITZ, A
Format	Journal Article
Language	English
Published	Oxford Oxford University Press 11.04.1991
Subjects	Animals Base Sequence Biological and medical sciences Embryo, Mammalian - chemistry embryos Fundamental and applied biological sciences. Psychology Genes. Genome Humans Mice Molecular and cellular biology Molecular genetics Molecular Sequence Data myosin Myosins - genetics Polymerase Chain Reaction Promoter Regions, Genetic promoters RNA, Messenger - genetics Sequence Homology, Nucleic Acid Transcription, Genetic Human Contractile protein Embryo Nucleotide sequence Transcription promoter Myosin
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Abstract	Recently we have found evidence that the human embryonic myosin alkali light chain (MLC1 emb) gene has two functional promoters and that its mRNAs exhibit heterogeneity in their 3'untranslated regions (UTR). To study this more in detail we have isolated and characterized the human MLC1emb gene. We focussed in particular on 2 kilobases of 5'flanking region and the alternative 3'UTRs. RNA primer extension and S1 mapping analyses revealed that the MLC1emb gene can indeed be driven either by a proximal or a distal promoter, both in fetal and adult cardiac tissue. These MLC1emb RNAs can contain either the proximal or distal 3'UTR. In contrast to this, in fetal as well as adult masseter muscle MLC1emb mRNA is predominantly transcribed from the proximal promoter and contains mainly the distal 3'UTR. These results explain the known heterogeneity of MLC1emb mRNAs. Finally, we present evidence that the murine MLC1emb gene also contains a functional distal promoter element which has hitherto been undetected.
AbstractList	Recently we have found evidence that the human embryonic myosin alkali light chain (MLC1 emb) gene has two functional promoters and that its mRNAs exhibit heterogeneity in their 3'untranslated regions (UTR). To study this more in detail we have isolated and characterized the human MLC1emb gene. We focussed in particular on 2 kilobases of 5'flanking region and the alternative 3'UTRs. RNA primer extension and S1 mapping analyses revealed that the MLC1emb gene can indeed be driven either by a proximal or a distal promoter, both in fetal and adult cardiac tissue. These MLC1emb RNAs can contain either the proximal or distal 3'UTR. In contrast to this, in fetal as well as adult masseter muscle MLC1emb mRNA is predominantly transcribed from the proximal promoter and contains mainly the distal 3'UTR. These results explain the known heterogeneity of MLC1emb mRNAs. Finally, we present evidence that the murine MLC1emb gene also contains a functional distal promoter element which has hitherto been undetected. Recently we have found evidence that the human embryonic myosin alkali light chain (MLC1emb) gene has two functional promoters and that its mRNAs exhibit heterogeneity in their 3'untranslated regions (UTR). To study this more in detail we have isolated and characterized the human MLC1emb gene. We focussed in particular on 2 kilobases of 5'flanking region and the alternative 3'UTRs. RNA primer extension and S1 mapping analyses revealed that the MLC1emb gene can indeed be driven either by a proximal or a distal promoter, both in fetal and adult cardiac tissue. These MLC1emb RNAs can contain either the proximal or distal 3'UTR. Recently we have found evidence that the human embryonic myosin alkali light chain (MLC1 emb) gene has two functional promoters and that its mRNAs exhibit heterogeneity in their 3'untranslated regions (UTR). To study this more in detail we have isolated and characterized the human MLC1emb gene. We focussed in particular on 2 kilobases of 5'flanking region and the alternative 3'UTRs. RNA primer extension and S1 mapping analyses revealed that the MLC1emb gene can indeed be driven either by a proximal or a distal promoter, both in fetal and adult cardiac tissue. These MLC1emb RNAs can contain either the proximal or distal 3'UTR. In contrast to this, in fetal as well as adult masseter muscle MLC1emb mRNA is predominantly transcribed from the proximal promoter and contains mainly the distal 3'UTR. These results explain the known heterogeneity of MLC1emb mRNAs. Finally, we present evidence that the murine MLC1emb gene also contains a functional distal promoter element which has hitherto been undetected. Images
Author	POUSTKA, A ROTTER, M STARZINSKI-POWITZ, A ZIMMERMAN, K
AuthorAffiliation	Institut für Genetik, Köln, FRG
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Title	The human embryonic myosin alkali light chain gene : use of alternative promoters and 3' non-coding regions
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