0.074607661 The probability was calculated by GAS algorithm, ranging from 0 to 1. The closer it is to 1, the more possibly it functions in spermatogenesis.
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Abstract of related literatures
1. Fast skeletal muscle troponin C (sTnC) is the calcium-binding subunit of the myofibrillar thin filament that regulates excitation-contraction coupling. Utilizing a polymerase chain reaction cloning strategy, we have isolated cDNA clones encoding murine sTnC. The 160-amino acid sTnC protein shares 70% amino acid sequence identity with the slow/cardiac isoform of troponin C (cTnC). However, three areas of significant sequence divergence were identified. Southern blot analyses demonstrated that murine sTnC is encoded by a single copy gene that is distinct from that which encodes cTnC. Northern blot analyses showed that the sTnC gene is expressed exclusively in skeletal muscle (extensor digitorum and anterior tibialis) and not in neonatal or adult heart, brain, kidney, liver, lung, or testes. Studies of the murine C2C12 myoblast cell line demonstrated that sTnC gene expression is developmentally regulated during the differentiation of these myoblasts into myotubes. A full-length murine sTnC genomic clone was isolated and characterized by DNA sequence, primer extension, and S1 nuclease protection analyses. The sTnC gene is composed of six exons spanning 2.6 kilobase pairs of genomic DNA. Although the introns do not divide the gene into functional domains, the intron-exon borders are nearly identical to those of the other members of the troponin C multigene family. Transient transfection assays using chloramphenicol acetyltransferase reporter plasmids demonstrated that the sTnC promoter alone is relatively inactive in muscle cells and that high level sTnC gene expression in these cells is controlled by a potent transcriptional enhancer element located within the first intron of the gene. In additional transfection experiments, the sTnC enhancer was shown to display three important biological activities. (i) It was required for high level transcription from the sTnC promoter in muscle cells; (ii) its activity was muscle cell specific; and (iii) its activity was developmentally regulated during the differentiation of C2C12 myoblasts to myotubes. Taken together, these data define the sTnC gene as an excellent model system for studies of developmentally regulated gene expression in skeletal muscle. PMID: [2394755]
2. The National Institutes of Health's Mammalian Gene Collection (MGC) project was designed to generate and sequence a publicly accessible cDNA resource containing a complete open reading frame (ORF) for every human and mouse gene. The project initially used a random strategy to select clones from a large number of cDNA libraries from diverse tissues. Candidate clones were chosen based on 5'-EST sequences, and then fully sequenced to high accuracy and analyzed by algorithms developed for this project. Currently, more than 11,000 human and 10,000 mouse genes are represented in MGC by at least one clone with a full ORF. The random selection approach is now reaching a saturation point, and a transition to protocols targeted at the missing transcripts is now required to complete the mouse and human collections. Comparison of the sequence of the MGC clones to reference genome sequences reveals that most cDNA clones are of very high sequence quality, although it is likely that some cDNAs may carry missense variants as a consequence of experimental artifact, such as PCR, cloning, or reverse transcriptase errors. Recently, a rat cDNA component was added to the project, and ongoing frog (Xenopus) and zebrafish (Danio) cDNA projects were expanded to take advantage of the high-throughput MGC pipeline. PMID: [15489334]
Troponin is the central regulatory protein of striatedmuscle contraction. Tn consists of three components: Tn-I which isthe inhibitor of actomyosin ATPase, Tn-T which contains thebinding site for tropomyosin and Tn-C. The binding of calcium toTn-C abolishes the inhibitory action of Tn on actin filaments.