Sequencing and expression of the second allele of the interleukin-1beta1 gene in rainbow trout (Oncorhynchus mykiss): identification of a novel SINE in the third intron

A lambda clone containing a rainbow trout IL-1beta1 gene was isolated by a PCR screening strategy from a genomic library cloned in lambda GEM-11, and an EcoRI fragment from this clone was fully sequenced, and contained 1680 bp 5'-flanking sequence, the whole IL-1beta1 gene open reading frame, and the 3'-flanking region with two potential poly A signals and poly A sites. This clone encoded a protein that shared 99.8% identity to the previously published trout IL-1beta1 cDNA sequence, with only three base substitutions. The main difference was that this clone had an additional complete HpaI SINE insertion in the 3rd intron making intron III 211 bp larger (834 bp via 623 bp). Thus this sequence was designated as allele B (Big intron III) of IL-1beta1 and the previously reported sequence as allele S (Short intron III). Three lines of evidence (allele specific PCR, cloning and sequencing, and direct sequencing of PCR products) revealed that allele B was constitutively expressed and could respond to stimulation with lipopolysaccharide or trout recombinant IL-1beta. Searching of the GenBank database with the HpaI SINE sequence resulted in three additional HpaI loci being identified in rainbow trout. Another SINE retroposition was also identified in the same intron of both alleles of IL-1beta1 by comparison with the trout IL-1beta2 gene. This novel SINE sequence, sharing high homology with the HpaI SINE at the 3'-end region, is present in EST databases of several species including human, mouse and fish. The consensus of this novel SINE shares 57 to 61% identities to tRNA-Leu from different species. Another older retroposition event in the same intron of IL-1beta1 has also been hypothesised, recognised as six adenines, that may function as a RNA polIII terminator. A model for the IL-1beta1 allele formation is proposed. Following the earliest retroposition into one of the two IL-1beta genes that resulted from a genome duplication in salmonids, the proper environment for successive PV SINE retroposition was created. A recent retroposition of the HpaI SINE in IL-1beta1 resulted in the formation of the two alleles of IL-1beta1. Examination of the SINEs insertion and their host gene microenvironments revealed that the SINE retroposition does not appear random, both in the site selection and the direction of insertion. The mechanism governing this outcome is discussed.     

RAD sequencing yields a high success rate for westslope cutthroat and rainbow trout species-diagnostic SNP assays

Hybridization with introduced rainbow trout threatens most native westslope cutthroat trout populations. Understanding the genetic effects of hybridization and introgression requires a large set of high-throughput, diagnostic genetic markers to inform conservation and management. Recently, we identified several thousand candidate single-nucleotide polymorphism (SNP) markers based on RAD sequencing of 11 westslope cutthroat trout and 13 rainbow trout individuals. Here, we used flanking sequence for 56 of these candidate SNP markers to design high-throughput genotyping assays. We validated the assays on a total of 92 individuals from 22 populations and seven hatchery strains. Forty-six assays (82%) amplified consistently and allowed easy identification of westslope cutthroat and rainbow trout alleles as well as heterozygote controls. The 46 SNPs will provide high power for early detection of population admixture and improved identification of hybrid and nonhybridized individuals. This technique shows promise as a very low-cost, reliable and relatively rapid method for developing and testing SNP markers for nonmodel organisms with limited genomic resources.     

Characterization and comparison of microsatellites derived from repeat-enriched libraries and expressed sequence tags

The construction of high-density linkage maps for use in identifying loci underlying important traits requires the development of large numbers of polymorphic genetic markers spanning the entire genome at regularly spaced intervals. As part of our efforts to develop markers for rainbow trout (Oncorhynchus mykiss), we performed a comparison of allelic variation between microsatellite markers developed from expressed sequence tag (EST) data and anonymous markers identified from repeat-enriched libraries constructed from genomic DNA. A subset of 70 markers (37 from EST databases and 33 from repeat enriched libraries) was characterized with respect to polymorphism information content (PIC), number of alleles, repeat number, locus duplication within the genome and ability to amplify in other salmonid species. Higher PIC was detected in dinucleotide microsatellites derived from ESTs than anonymous markers (72.7% vs. 54.0%). In contrast, dinucleotide repeat numbers were higher for anonymous microsatellites than for EST derived microsatellites (27.4 vs.18.1). A higher rate of cross-species amplification was observed for EST microsatellites. Approximately half of each marker type was duplicated within the genome. Unlike single-copy markers, amplification of duplicated microsatellites in other salmonids was not correlated to phylogenetic distance. Genomic microsatellites proved more useful than EST derived microsatellites in discriminating among the salmonids. In total, 428 microsatellite markers were developed in this study for mapping and population genetic studies in rainbow trout.     

Next-generation RAD sequencing identifies thousands of SNPs for assessing hybridization between rainbow and westslope cutthroat trout

The increased numbers of genetic markers produced by genomic techniques have the potential to both identify hybrid individuals and localize chromosomal regions responding to selection and contributing to introgression. We used restriction-site-associated DNA sequencing to identify a dense set of candidate SNP loci with fixed allelic differences between introduced rainbow trout (Oncorhynchus mykiss) and native westslope cutthroat trout (Oncorhynchus clarkii lewisi). We distinguished candidate SNPs from homeologs (paralogs resulting from whole-genome duplication) by detecting excessively high observed heterozygosity and deviations from Hardy-Weinberg proportions. We identified 2923 candidate species-specific SNPs from a single Illumina sequencing lane containing 24 barcode-labelled individuals. Published sequence data and ongoing genome sequencing of rainbow trout will allow physical mapping of SNP loci for genome-wide scans and will also provide flanking sequence for design of qPCR-based TaqMan(?) assays for high-throughput, low-cost hybrid identification using a subset of 50-100 loci. This study demonstrates that it is now feasible to identify thousands of informative SNPs in nonmodel species quickly and at reasonable cost, even if no prior genomic information is available.     

A putative beta2-adrenoceptor from the rainbow trout (Oncorhynuchus mykiss). Molecular characterization and pharmacology.

Extensive molecular characterization of mammalian beta-adrenoceptors has revealed complex modes of regulation and interaction. Relatively little attention, however, has focused on adrenoceptors from early branching vertebrates such as fish. Using an RT-PCR approach we have cloned a rainbow trout beta2-adrenoceptor gene that codes for a 409-amino-acid protein with the same seven transmembrane domain structure as its mammalian counterparts. This rainbow trout beta2-adrenoceptor shares a high degree of amino-acid sequence conservation with other vertebrate beta2-adrenoceptors. The conclusion that this sequence is a rainbow trout beta2-adrenoceptor is further supported by phylogenetic analysis of vertebrate beta-adrenoceptor sequences and competitive pharmacological binding data. RNase protection assays demonstrate that the rainbow trout beta2-adrenoceptor gene is highly expressed in the liver and red and white muscle, with lower levels of expression in the gills, heart, kidney and spleen of the rainbow trout. The lack of regulatory phosphorylation sites within the G-protein-binding domain of the rainbow trout beta2-adrenoceptor sequence suggests that the in vivo control of trout beta2-adrenoceptor signaling differs substantially from that of mammals.     

Discovery and characterization of single-nucleotide polymorphisms in steelhead/rainbow trout, Oncorhynchus mykiss

Single-nucleotide polymorphisms (SNPs) have several advantages over other genetic markers, including lower mutation and genotyping error rates, ease of inter-laboratory standardization, and the prospect of high-throughput, low-cost genotyping. Nevertheless, their development and use has only recently moved beyond model organisms to groups such as salmonid fishes. Oncorhynchus mykiss is a salmonid native to the North Pacific rim that has now been introduced throughout the world for fisheries and aquaculture. The anadromous form of the species is known as steelhead. Native steelhead populations on the west coast of the United States have declined and many now have protected status. The nonanadromous, or resident, form of the species is termed rainbow, redband or golden trout. Additional life history and morphological variation, and interactions between the forms, make the species challenging to study, monitor and evaluate. Here, we describe the discovery, characterization and assay development for 139 SNP loci in steelhead/rainbow trout. We used EST sequences from existing genomic databases to design primers for 480 genes. Sanger-sequencing products from these genes provided 130 KB of consensus sequence in which variation was surveyed for 22 individuals from steelhead, rainbow and redband trout groups. The resulting TaqMan assays were surveyed in five steelhead populations and three rainbow trout stocks, where they had a mean minor allele frequency of 0.15-0.26 and observed heterozygosity of 0.18-0.35. Mean F(ST) was 0.204. The development of SNPs for O. mykiss will help to provide highly informative genetic tools for individual and stock identification, pedigree reconstruction, phylogeography and ecological investigation.     

虹鳟鱼金属硫蛋白启动子的体外扩增、克隆及其序列分析

以含有虹鳟鱼金属硫蛋白基因的质粒ＤＮＡ为模板,以合成的两段３２个寡聚核苷酸为引物,经过ＰＣＲ扩增,合成了４３３ｂｐ的片段,把其克隆到ｐＢＬ－ＣＡＴ载体中,序列分析和限制酶切图谱表明所克隆的虹鳟鱼金属硫蛋白启动子含有４３３ｂｐ,含有ＴＡＴＡ和ＣＡＡＴ序列,与Ｈｏｎｇ报导的鳟鱼金属硫蛋白启动子的序列比较,其核苷酸泊同源率为１００％。     

Characterization of a new BAC library for rainbow trout: evidence for multi-locus duplication

A 10X rainbow trout bacterial artificial chromosome (BAC) library was constructed to aid in the physical and genetic mapping efforts of the rainbow trout genome. The library was derived from the Swanson clonal line (YY male) and consists of 184,704 clones with an average insert size of 137,500 bp (PFGE) or 118,700 bp (DNA fingerprinting). The clones were gridded onto 10 large nylon membranes to produce high-density arrays for screening the library by hybridization. The library was probed with 11 cDNAs from the NCCCWA EST project chosen because of interest in their homology to known gene sequences, seven known genes, and a Y-specific sex marker. Putative positive clones identified by hybridization were re-arrayed and gridded for secondary confirmation. FPC analysis of HindIII and EcoRV DNA fingerprinting was used to estimate the level of redundancy in the library, to construct BAC contigs and to detect duplicated loci in the semi-duplicated rainbow trout genome. A good correlation (R2 = 0.7) was found between the number of hits per probe and the number of contigs that were assembled from the positive BACs. The average number of BACs per contig was 9.6, which is in good agreement with 10X genome coverage of the library. Two-thirds of the loci screened were predicted to be duplicated as the positive BACs for those genes were assembled into two or three different contigs, which suggests that most of the rainbow trout genome is duplicated.     

乌鳢肝5S rRNA的核苷酸序列

应用Peattie,Maxum等化学裂解法,辅以酶解直读法等测定了乌醴(Ophiocephalus argus)肝5S rRNA的核苷酸序列;与已知的虹鳟鱼和纵带泥鳅5S rRNA序列比较,发现它们之间的核苷酸序列具有高度的保守性.利用其一级结构所给出的信息,初步提出二级结构模型.     

乌鳢肝5S rRNA的核苷酸序列

应用Peattie,Maxum等化学裂解法,辅以酶解直读法等测定了乌醴(Ophiocephalus argus)肝5S rRNA的核苷酸序列;与已知的虹鳟鱼和纵带泥鳅5S rRNA序列比较,发现它们之间的核苷酸序列具有高度的保守性.利用其一级结构所给出的信息,初步提出二级结构模型.     

A Second Generation Integrated Map of the Rainbow Trout (<Emphasis Type="Italic">Oncorhynchus mykiss</Emphasis>) Genome: Analysis of Conserved Synteny with Model Fish Genomes

DNA fingerprints and end sequences from bacterial artificial chromosomes (BACs) from two new libraries were generated to improve the first generation integrated physical and genetic map of the rainbow trout (Oncorhynchus mykiss) genome. The current version of the physical map is composed of 167,989 clones of which 158,670 are assembled into contigs and 9,319 are singletons. The number of contigs was reduced from 4,173 to 3,220. End sequencing of clones from the new libraries generated a total of 11,958 high quality sequence reads. The end sequences were used to develop 238 new microsatellites of which 42 were added to the genetic map. Conserved synteny between the rainbow trout genome and model fish genomes was analyzed using 188,443 BAC end sequence (BES) reads. The fractions of BES reads with significant BLASTN hits against the zebrafish, medaka, and stickleback genomes were 8.8%, 9.7%, and 10.5%, respectively, while the fractions of significant BLASTX hits against the zebrafish, medaka, and stickleback protein databases were 6.2%, 5.8%, and 5.5%, respectively. The overall number of unique regions of conserved synteny identified through grouping of the rainbow trout BES into fingerprinting contigs was 2,259, 2,229, and 2,203 for stickleback, medaka, and zebrafish, respectively. These numbers are approximately three to five times greater than those we have previously identified using BAC paired ends. Clustering of the conserved synteny analysis results by linkage groups as derived from the integrated physical and genetic map revealed that despite the low sequence homology, large blocks of macrosynteny are conserved between chromosome arms of rainbow trout and the model fish species.     

Molecular cloning and characterization of a constitutively expressed heat-shock-cognate hsc71 gene from rainbow trout.

A rainbow trout major heat-shock-protein-like gene (hsp 70) and corresponding cDNA clones were isolated by hybridization to heterologous hsp70 probes. DNA sequencing revealed that this gene is structurally similar to a mammalian heat-shock-cognate hsc70 gene and consists of eight introns. Northern blot and primer extension analyses showed that the corresponding mRNA is constitutively abundant in different trout tissues and salmonid cell lines. Fragments of the isolated gene containing the -900 - +30 and -217 - +58 sequence were linked to a bacterial chloramphenicol acetyltransferase reporter gene and transiently transfected into salmonid cells. The expression pattern of these constructs supports our conclusion that the isolated genomic and cDNA clones correspond to a trout heat-shock-cognate hsc70 gene.     

Development of 54 novel single-nucleotide polymorphism (SNP) assays for sockeye and coho salmon and assessment of available SNPs to differentiate stocks within the Columbia River

Single-nucleotide polymorphisms (SNPs) have potential for broad application in population and conservation genetics, but availability of these markers is limited in many nonmodel species. In this study, genomic and expressed sequence tagged (EST) sequences from closely related salmonids (Chinook salmon and rainbow trout) were used to design primers for amplification and sequencing of sockeye (Oncorhynchus nerka) and coho (Oncorhynchus kisutch) salmon DNA for SNP discovery. One hundred and six primer sets were designed and tested for amplification in each species. An ascertainment panel of 32 diverse individuals from each species was used as template for PCR amplification and Sanger sequencing. In total, 21,647 bases of consensus sequence were screened in sockeye salmon and 20,784 bases in coho salmon with 93 and 149 SNP sites identified, respectively. Sixty-four SNP sites were chosen for assay development, and 54 of the assays were validated by comparison with genotype and sequence data (O. nerka = 23; O. kisutch = 31). These validated SNP assays along with 142 other available SNP assays [O. nerka = 103 (126 total); O. kisutch = 30 (61 total)] were used to genotype collections of O. nerka (N = 5) and O. kisutch (N = 4) from various sites in the Columbia River to evaluate the utility of these markers in this region. Results from factorial correspondence analysis indicate that these SNP markers are capable of distinguishing O. nerka populations, but O. kisutch collections were less distinct because of their common ancestry.