“…In the male gonad, a transcript homologous to the sperm-specific H1/protamine-like protein was highly expressed. This protein is responsible for compacting sperm DNA into a highly condensed, stable, inactive complex and is involved in chromatin remodeling and/or transcriptional regulation during spermiogenesis [32]. This transcript was also expressed at a very low level in other tissues, but absent in female gonad.…”
Section: Resultsmentioning
confidence: 99%
“…The transcriptome data obtained by 454 sequencing provided an excellent source for mining and development of gene-associated markers. [13], [32], [38], [39].…”
BackgroundBivalves comprise 30,000 extant species, constituting the second largest group of mollusks. However, limited genetic research has focused on this group of animals so far, which is, in part, due to the lack of genomic resources. The advent of high-throughput sequencing technologies enables generation of genomic resources in a short time and at a minimal cost, and therefore provides a turning point for bivalve research. In the present study, we performed de novo transcriptome sequencing to first produce a comprehensive expressed sequence tag (EST) dataset for the Yesso scallop (Patinopecten yessoensis).ResultsIn a single 454 sequencing run, 805,330 reads were produced and then assembled into 32,590 contigs, with about six-fold sequencing coverage. A total of 25,237 unique protein-coding genes were identified from a variety of developmental stages and adult tissues based on sequence similarities with known proteins. As determined by GO annotation and KEGG pathway mapping, functional annotation of the unigenes recovered diverse biological functions and processes. Transcripts putatively involved in growth, reproduction and stress/immune-response were identified. More than 49,000 single nucleotide polymorphisms (SNPs) and 2,700 simple sequence repeats (SSRs) were also detected.ConclusionOur data provide the most comprehensive transcriptomic resource currently available for P. yessoensis. Candidate genes potentially involved in growth, reproduction, and stress/immunity-response were identified, and are worthy of further investigation. A large number of SNPs and SSRs were also identified and ready for marker development. This resource should lay an important foundation for future genetic or genomic studies on this species.
“…In the male gonad, a transcript homologous to the sperm-specific H1/protamine-like protein was highly expressed. This protein is responsible for compacting sperm DNA into a highly condensed, stable, inactive complex and is involved in chromatin remodeling and/or transcriptional regulation during spermiogenesis [32]. This transcript was also expressed at a very low level in other tissues, but absent in female gonad.…”
Section: Resultsmentioning
confidence: 99%
“…The transcriptome data obtained by 454 sequencing provided an excellent source for mining and development of gene-associated markers. [13], [32], [38], [39].…”
BackgroundBivalves comprise 30,000 extant species, constituting the second largest group of mollusks. However, limited genetic research has focused on this group of animals so far, which is, in part, due to the lack of genomic resources. The advent of high-throughput sequencing technologies enables generation of genomic resources in a short time and at a minimal cost, and therefore provides a turning point for bivalve research. In the present study, we performed de novo transcriptome sequencing to first produce a comprehensive expressed sequence tag (EST) dataset for the Yesso scallop (Patinopecten yessoensis).ResultsIn a single 454 sequencing run, 805,330 reads were produced and then assembled into 32,590 contigs, with about six-fold sequencing coverage. A total of 25,237 unique protein-coding genes were identified from a variety of developmental stages and adult tissues based on sequence similarities with known proteins. As determined by GO annotation and KEGG pathway mapping, functional annotation of the unigenes recovered diverse biological functions and processes. Transcripts putatively involved in growth, reproduction and stress/immune-response were identified. More than 49,000 single nucleotide polymorphisms (SNPs) and 2,700 simple sequence repeats (SSRs) were also detected.ConclusionOur data provide the most comprehensive transcriptomic resource currently available for P. yessoensis. Candidate genes potentially involved in growth, reproduction, and stress/immunity-response were identified, and are worthy of further investigation. A large number of SNPs and SSRs were also identified and ready for marker development. This resource should lay an important foundation for future genetic or genomic studies on this species.
“…Other putative sex-specific transcripts encoding sperm-specific proteins, vitellogenins and estradiol dehydrogenase, etc . [43]–[45], were also discovered. Further GO analysis also identified sequences classified into terms associated with growth and reproduction (Table 4).…”
BackgroundBivalves play an important role in the ecosystems they inhabit and represent an important food source all over the world. So far limited genetic research has focused on this group of animals largely due to the lack of sufficient genetic or genomic resources. Here, we performed de novo transcriptome sequencing to produce the most comprehensive expressed sequence tag resource for Zhikong scallop (Chlamys farreri), and conducted the first transcriptome comparison for scallops.ResultsIn a single 454 sequencing run, 1,033,636 reads were produced and then assembled into 26,165 contigs. These contigs were then clustered into 24,437 isotigs and further grouped into 20,056 isogroups. About 47% of the isogroups showed significant matches to known proteins based on sequence similarity. Transcripts putatively involved in growth, reproduction and stress/immune-response were identified through Gene ontology (GO) and KEGG pathway analyses. Transcriptome comparison with Yesso scallop (Patinopecten yessoensis) revealed similar patterns of GO representation. Moreover, 38 putative fast-evolving genes were identified through analyzing the orthologous gene pairs between the two scallop species. More than 46,000 single nucleotide polymorphisms (SNPs) and 350 simple sequence repeats (SSRs) were also detected.ConclusionOur study provides the most comprehensive transcriptomic resource currently available for C. farreri. Based on this resource, we performed the first large-scale transcriptome comparison between the two scallop species, C. farreri and P. yessoensis, and identified a number of putative fast-evolving genes, which may play an important role in scallop speciation and/or local adaptation. A large set of single nucleotide polymorphisms and simple sequence repeats were identified, which are ready for downstream marker development. This transcriptomic resource should lay an important foundation for future genetic or genomic studies on C. farreri.
“…For example, N-terminal cleavage of the X. laevis SP1 precursor yields the SP2 protein (as shown in this paper), and in mussel, cleavage at a C-terminal cut site in the PL-I precursor yields both PL-II and PL-IV (Figure ). However, the cleavage site (SPAA*ASP) at the N-terminal region of SP1 has no sequence similarity to the proteolytic processing sites of invertebrates (NKSNN*AK) whether they occur at the N- or C-terminal regions of these proteins (Figure B) ( , ). 7 (A) The SP proteins from X. laevis are structurally related to the SNBPs of the PL-type.…”
The complete cDNA sequence of Xenopus laevis sperm specific proteins SP1 and SP2 has been determined. This information when taken together with N-terminal sequencing and mass spectroscopy data indicates that these two proteins share a product precursor relationship in which SP2 results from cleavage of a short N-terminal peptide of SP1. The secondary and tertiary structures of SP2 have been characterized using circular dichroism and three dimension structure prediction. These structural analyses have conclusively shown that SP1/SP2 proteins are related to proteins of the histone H1 family, particularly to vertebrate histone H1x. Hence, they can be considered bona fide members of the protamine-like- I (PL-I) group of sperm nuclear basic proteins (SNBPs) that have been described in other vertebrate and invertebrate groups. SP2 binds to nucleosomal DNA in a way that is very similar to that of histone H1. However, its interaction with circular DNA does not exhibit an enhanced preference for the supercoiled conformation, and it appears to be mainly driven by ionic interactions.
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