Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Four variant AE1 anion exchangers with predicted molecular masses of approximately 99, approximately 102, approximately 104, and approximately 108 kDa are expressed in chicken erythroid cells. These variant polypeptides differ in sequence only at the N terminus of their cytoplasmic domains. Molecular analyses have shown that transcripts derived from both of the erythroid-specific promoters, P1 and P2, encode all four of these AE1 anion exchanger variants. However, quantitative RNase protection analyses have shown that the transcripts derived from the P1 promoter are much more prevalent than those derived from the P2 promoter. Reverse transcriptase polymerase chain reaction studies have indicated that the extensive diversity in the transcripts derived from the AE1 gene occurs both in primitive and definitive lineage erythroid cells. Transient transfection analyses using human erythroleukemia cells have investigated the functional significance of the alternative sequences at the N terminus of these variant exchangers. These studies have shown that the erythroid AE1 variants are sorted to different membrane compartments in these cells. The approximately 99- and approximately 102-kDa variants are primarily sorted to the plasma membrane, whereas the approximately 108-kDa variant is retained in a perinuclear compartment. These results suggest that the alternative N-terminal cytoplasmic sequences of these polypeptides may serve as signals to direct these variant transporters to different membrane compartments within cells.
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PMID:Four variant chicken erythroid AE1 anion exchangers. Role of the alternative N-terminal sequences in intracellular targeting in transfected human erythroleukemia cells. 764 85

The anion transporter, band 3, is a ubiquitous protein. It is present in brain and all other tissues examined. Not only is band 3 present in cell membranes, but also in nuclear, Golgi and mitochondria membranes. There are four isoforms of band 3, the anion exchanger (AE) proteins, thus far discovered. They are products of different genes. Lymphocytes are reported to contain AE2, but not AE1. We hypothesized that induction or up-regulation of AE1 occurs when lymphocytes are transformed as an initial event in the path to malignancy. We transformed lymphocytes containing a single base mutation with Epstein Barr Virus (EBV). The mutation of band 3, high transport band 3 (HTbd3), exhibits anion transport that is 2-3 times normal in erythrocytes which contain AE1. This facilitated our identification of AE1 since the probability that 2 different gene products would have the same mutation approaches zero. Thus, we have a base mutation in addition to linear sequence to identify AE1. A 133 base pair (bp) fragment including the affected region was amplified from the mRNA of lymphocytes from the HTbd3 mutant. AE1 primers were used to amplify regions of interest. Reverse transcriptase polymerase chain reaction (RT-PCR) was used to generate cDNA which was sequenced. The sequence of the crucial 133 base pair segment from high transport lymphocytes was 100% identical to the sequence published for the red blood cell band 3 of the same mutant. As reported previously for erythrocytes, this mutation is a C-->T base change which changes a proline to leucine in the protein sequence. Restriction enzyme digests of AE1 cDNA from normal and HTBD3 lymphocytes confirmed that the proposita was homozygous for the mutation, and showed the father to be heterozygous. Anion transport was increased in HTbd3 EBV transformed lymphocytes, as was the case with HTbd3 erythrocytes. AE2 was identified in lymphocytes by sequence. Thus, EBV transformed lymphocytes express the erythroid band 3 (AE1) in addition to AE2.
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PMID:Human erythroid band 3 "anion exchanger 1" is expressed in transformed lymphocytes. 896 Jul 72

Reverse transcriptase-polymerase chain reaction (RT-PCR) of mRNA from canine large intestine, skeletal muscle, pancreas, kidney, and spleen and from cultured wild-type and C7 and C11 Madin-Darby canine kidney (MDCK) cells revealed considerable variation in anion exchanger (AE)1 and AE2 mRNA levels between the tissues. Similar high levels of AE2 mRNA were detected in all the MDCK cell populations. AE2 in MDCK cells is probably the basolateral Cl-/HCO3- exchanger common to the principal and beta-intercalated cells.
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PMID:Reverse transcriptase-polymerase chain reaction study of anion exchanger-2 in canine tissues and different Madin-Darby canine kidney cell types. 973 80

Anion exchangers (AE) are transmembrane proteins catalyzing electroneutral exchange of Cl(-) for HCO3-. To date, three different genes coding for this protein, AE1, AE2 and AE3, have been identified in many species. AE1 is considered to be the unique anion exchanger expressed in erythrocytes. In this paper we propose the presence of three different AEs in skate erythrocytes, a skAE1, a skAE2 and a skAE3, cloned by RT-PCR (reverse-transcriptase polymerase chain reaction). These three skAE have a similar predicted secondary structure. All three skAE are divided in two main domains: a hydrophilic cytoplasmic N-terminal domain and a C-terminal domain crossing the lipid bilayer at least 12 times. The greatest similarity is found in the membrane-spanning domain of the three skAE. The size as well as the amino-acid sequence of the cytoplasmic domain differ significantly among three anion exchangers. Functional expression studies in Xenopus oocytes led to the conclusion that skAE-1 and -2 share some functional features (Cl-dependence and DIDS sensitivity). The skAE3 could not be expressed in Xenopus oocytes. These data are in agreement with expression data obtained with AEs of different species utilizing the oocyte system. It is highly probable that these three new AE sequences come from three different genes, thus suggesting for the first time the presence of the three AE genes in Chondrichthyes.
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PMID:Evidence for the presence of three different anion exchangers in a red cell. Functional expression studies in Xenopus oocytes. 1287 59