Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple protein 4.1 isoforms are expressed in a variety of tissues through complex alternative pre-mRNA splicing events, one function of which is to regulate use of two alternative translation initiation signals. Late erythroid cells express mainly the downstream initiation site for synthesis of prototypical 80-kD isoforms; nonerythroid cells in addition use an upstream site to encode higher molecular mass isoform(s). In this study, we examined the effects of a 5' gene rearrangement in a family with hereditary elliptocytosis and complete deficiency of erythrocyte 4.1 protein on 4.1 isoform expression in erythroid vs. nonerythroid cells. Patient 4.1 mRNAs from reticulocytes, fibroblasts, and B lymphocytes were amplified by reverse transcriptase/polymerase chain reaction techniques and shown to exhibit a 318-nucleotide deletion that encompasses the downstream AUG, but leaves intact the upstream AUG. Immunoblot analysis revealed a total deficiency of 4.1 in patient red cells and a selective deficiency of 80-kD isoform(s) but not high molecular weight 4.1 in patient nonerythroid cells. Thus, the 4.1 gene mutation in this family produces an isoform-specific deficiency that is manifested clinically in tissue-specific fashion, such that red cells are affected but other cell types are unaffected because of tissue-specific differences in RNA splicing and translation initiation.
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PMID:An isoform-specific mutation in the protein 4.1 gene results in hereditary elliptocytosis and complete deficiency of protein 4.1 in erythrocytes but not in nonerythroid cells. 842 35

Expression of multiple protein 4.1 isoforms in erythroid progenitors and in a variety of nonerythroid tissues results from alternative pre-mRNA splicing. In 4.1 pre-mRNA, several translation initiation sites are present; synthesis of isoforms larger than 80 kD occurs when an upstream 5' AUG is spliced in, whereas the 80-kD mature erythroid isoform is produced when the upstream AUG is spliced out and translation is initiated at the downstream AUG. During erythropoiesis, this splicing switch is developmentally regulated. We studied this developmental switch in hereditary elliptocytosis 4.1Alg, in which a DNA rearrangement involving the exon containing the downstream AUG results in loss of coding capacity for the 80-kD 4.1, leading to mature red blood cells deficient in 4.1 with decreased membrane mechanical stability. Analysis of erythroblast RNA by reverse transcriptase-polymerase chain reaction showed that, although it retained the upstream AUG, its coding region was approximately 2.2 kb, compared with approximately 2.5 kb of normal 4.1 mRNA, because of the deletion of exons, including the one that codes for the downstream AUG. Immunofluorescent microscopy and Western blot analysis documented protein 4.1 expression in HE 4.1Alg erythroblasts. These studies emphasize the crucial role of differentiation-regulated RNA splicing because, within the same erythroid tissue, the HE 4.1Alg phenotype did not appear until after the differentiation-associated splicing event.
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PMID:Differential use of protein 4.1 translation initiation sites during erythropoiesis: implications for a mutation-induced stage-specific deficiency of protein 4.1 during erythroid development. 865 48