Chongbo He

Construction of Genetic Linkage Maps and Comparative Genome Analysis of Catfish Using Gene-associated Markers

A genetic linkage map of the channel catfish genome (N = 29) was constructed using EST-based microsatellite and single nucleotide polymorphism (SNP) markers in an interspecific reference family. A total of 413 microsatellites and 125 SNP markers were polymorphic in the reference family. Linkage analysis using JoinMap 4.0 allowed mapping of 331 markers (259 microsatellites and 72 SNPs) to 29 linkage groups. Each linkage group contained 3–18 markers. The largest linkage group contained 18 markers and spanned 131.2 cM, while the smallest linkage group contained 14 markers and spanned only 7.9 cM. The linkage map covered a genetic distance of 1811 cM with an average marker interval of 6.0 cM. Sex-specific maps were also constructed; the recombination rate for females was 1.6 times higher than that for males. Putative conserved syntenies between catfish and zebrafish, medaka, and Tetraodon were established, but the overall levels of genome rearrangements were high among the teleost genomes. This study represents a first-generation linkage map constructed by using EST-derived microsatellites and SNPs, laying a framework for large-scale comparative genome analysis in catfish. The conserved syntenies identified here between the catfish and the three model fish species should facilitate structural genome analysis and evolutionary studies, but more importantly should facilitate functional inference of catfish genes. Given that determination of gene functions is difficult in nonmodel species such as catfish, functional genome analysis will have to rely heavily on the establishment of orthologies from model species.

Expression Profile of the Channel Catfish Spleen : Analysis of Genes Involved in Immune Functions

Both qualitative and quantitative patterns of tissue-specific gene expression can be determined using gene profiling. Expressed sequence tag (EST) analysis is an efficient approach not only for gene discovery and examining gene expression, but also for development of molecular resources useful for functional genomics. As part of an ongoing transcriptome analysis of channel catfish (Ictalurus punctatus), EST analysis was conducted for gene annotations and profiling using a complementary DNA library developed from messenger RNA of the spleen. A total of 1204 spleen cDNA clones were analyzed. Of the 1204 clones, 665 clones (55.2%) were identified as orthologs of known genes from other organisms by BLAST searches and 539 clones (44.8%) as unknown gene clones. In total 147 novel genes were identified, and annotations were made to 118 of them. In addition, 389 novel EST clusters were identified. Expression profile was analyzed in relation to metabolic functional groups. A total of 28 known genes were involved in immune functions, of which 10 were identified for the first time in channel catfish. Microsatellite-containing clones were also identified that may be potentially useful for genome mapping. This work contributed to the Catfish Gene Index, and toward a Unigene set useful for functional genomics research concerning spleen gene functions in relation to disease defenses.

Towards the Ictalurid Catfish Transcriptome: Generation and Analysis of 31,215 Catfish ESTs.

BackgroundEST sequencing is one of the most efficient means for gene discovery and molecular marker development, and can be additionally utilized in both comparative genome analysis and evaluation of gene duplications. While much progress has been made in catfish genomics, large-scale EST resources have been lacking. The objectives of this project were to construct primary cDNA libraries, to conduct initial EST sequencing to generate catfish EST resources, and to obtain baseline information about highly expressed genes in various catfish organs to provide a guide for the production of normalized and subtracted cDNA libraries for large-scale transcriptome analysis in catfish.ResultsA total of 17 cDNA libraries were constructed including 12 from channel catfish (Ictalurus punctatus) and 5 from blue catfish (I. furcatus). A total of 31,215 ESTs, with average length of 778 bp, were generated including 20,451 from the channel catfish and 10,764 from blue catfish. Cluster analysis indicated that 73% of channel catfish and 67% of blue catfish ESTs were unique within the project. Over 53% and 50% of the channel catfish and blue catfish ESTs, respectively, had significant similarities to known genes. All ESTs have been deposited in GenBank. Evaluation of the catfish EST resources demonstrated their potential for molecular marker development, comparative genome analysis, and evaluation of ancient and recent gene duplications. Subtraction of abundantly expressed genes in a variety of catfish tissues, identified here, will allow the production of low-redundancy libraries for in-depth sequencing.ConclusionThe sequencing of 31,215 ESTs from channel catfish and blue catfish has significantly increased the EST resources in catfish. The EST resources should provide the potential for microarray development, polymorphic marker identification, mapping, and comparative genome analysis.

Multiple CC chemokines in channel catfish and blue catfish as revealed by analysis of expressed sequence tags

Chemokines represent a superfamily of chemotactic cytokines involved in recruitment, activation and adhesion of a variety of leukocyte types to inflammatory foci, as well as in the organization and maintenance of lymphoid organ architecture and in normal developmental processes. Nearly all chemokines have been identified in human and mouse, but only a handful of fish chemokines have been identified. Here we describe 14 distinct chemokines from channel catfish and blue catfish identified by analysis of 30,000 expressed sequence tags. Based on sequence analysis, sequence similarity, and the arrangement of the conserved cysteine residues, all 14 chemokines were identified as members of the CC subfamily. Phylogenetic analysis did not reveal clear evidence of orthology of the catfish and human or mouse chemokines. Similarity analysis indicated that nine of the 14 CC chemokines were identified for the first time in fish. The availability of this pool of catfish CC chemokines should facilitate rapid identification and phylogenetic analysis of CC chemokines from other fish and related species.

Major histocompatibility complex class IIA and IIB genes of the spotted halibut Verasper variegatus: genomic structure, molecular polymorphism, and expression analysis

The major histocompatibility complex (MHC) is a large genomic region characterized by extremely high polymorphism and its association with resistance/susceptibility to disease in vertebrates. In this study, the full lengths of MHC IIA and IIB cDNA were obtained from spotted halibut (Verasper variegates) by expressed sequence tag (EST) and rapid amplification of cDNA ends (RACE) approaches. The genomic structure, molecular polymorphism, and expression patterns were examined to study MHC II gene functions in fish. As in other teleosts, the genomic structure of the spotted halibut MHC IIA contained 4 exons and 3 introns. The deduced amino acid sequence of the class IIA molecule shared 28–79% similarity with those of teleosts and mammals. Nine class IIA alleles were identified from five individuals. Three alleles originating from a single individual suggested the existence of at least two class IIA loci in the genome. Six exons and 5 introns were identified from spotted halibut MHC IIB, and the deduced amino acid sequence shared 33–79% similarity with those of teleosts and mammals. Twelve alleles were identified, among which five were observed in a single individual, which suggested at least three class IIB loci. Quantitative real-time PCR analysis revealed the presence of class IIA and IIB transcripts in nine normal tissues with high expression level in kidney and gill. Furthermore, MHC IIA and IIB are probably two candidates of immune molecules involved in the acute-phase response in spotted halibut, because their transcriptional levels were significantly up-regulated in blood and liver after bacterial challenge.

The innate immune-related genes in catfish.

Catfish is one of the most important aquaculture species in America (as well as in Asia and Africa). In recent years, the production of catfish has suffered massive financial losses due to pathogen spread and breakouts. Innate immunity plays a crucial role in increasing resistance to pathogenic organisms and has generated increasing interest in the past few years. This review summarizes the current understanding of innate immune-related genes in catfish, including pattern recognition receptors, antimicrobial peptides, complements, lectins, cytokines, transferrin and gene expression profiling using microarrays and next generation sequencing technologies. This review will benefit the understanding of innate immune system in catfish and further efforts in studying the innate immune-related genes in fish.

Characterization of a myostatin gene (MSTN1) from spotted halibut (Verasper variegatus) and association between its promoter polymorphism and individual growth performance

Myostatin (MSTN) is a member of the transforming growth factor-β superfamily which could play an important role in negatively regulating skeletal muscle growth and development in mammal and non-mammal species. In the present study, a MSTN1 gene (designated as VvMSTN1) was cloned and characterized in one flatfish species, spotted halibut (Verasper variegatus). In the 3078 bp genomic sequence, three exons, two introns and a promoter sequence were identified. Sequence analysis of the promoter region revealed that it contained several cis-regulatory elements such as CAAT-box, TATA-box and E-boxes. The deduced protein sequence included a signal peptide, a TGF-β propeptide in the N-terminal region and the TGF-β active peptide in the C-terminal region. Phylogenetic analysis suggested that VvMSTN1 is an orthologue of teleost MSTN1 proteins which arose along with MSTN2 during a duplication event at the base of teleost evolution. Quantitative real-time PCR analysis revealed that VvMSTN1 mRNA was ubiquitously expressed in all nine tested tissues, with the most transcriptionally abundant in skeletal muscle. A primary assessment of sequence variability revealed five single nucleotide polymorphisms (SNPs) existed in the promoter region, among which three (G-653T, T-355C and G-253A) were genotyped with an advanced melting temperature (T(m))-shift method and tested for their association with growth traits (body length, body depth and total mass). Results indicated that genotype CC of locus T-355C had significantly higher growth traits than genotype TC and TT (P<0.05) in female spotted halibut. These results suggest that V. variegatus MSTN could be selected as a candidate gene for the future molecular breeding of stains with enhanced individual growth performance.

Characterization of 10 polymorphic microsatellite markers for Mediterranean blue mussel Mytilus galloprovincialis by EST database mining and cross-species amplification

. The lack of sufficient polymorphic molec-ular markers has limited the development of molecularphylogeny, population genetic analysis and marker-assistedbreeding in this species.Among the various currently available DNA markers thatcan be used to examine genetic diversity at the molecularlevel, the most informative and polymorphic are microsatel-lite DNA markers (Liu and Cordes 2004;Li

De novo assembly and characterization of spotted seal Phoca largha transcriptome using Illumina paired-end sequencing

Spotted seal (Phoca largha) is categorized as a critically endangered species in China. The aim of this study was to investigate spotted seal transcriptome by the approach of Illumina paired-end sequencing technology. We obtained a total of 52,146,394 reads for the mixed tissues of liver and spleen from the spotted seal. The de novo assemblies yielded 354,014 contigs and 178,466 unigenes. In the transcriptome, 193 unigenes were assigned to defense mechanisms. Three unigenes encoded MHC class I and 17 unigenes encoded MHC class II. In addition, bioinformatics analysis revealed a total of 4425 simple sequence repeats (SSRs). Fifty SSRs were randomly selected to validate amplification and determine the degree of polymorphism in the genomic DNA pools. Thirty-five primer pairs successfully amplified the expected DNA fragments and detected significant polymorphism among 28 spotted seal individuals. These results would contribute to the understanding of the genetic makeup of spotted seal transcriptome and provide useful information for functional genomic research in this species.

Genetic differentiation between natural and hatchery stocks of Japanese scallop (Mizuhopecten yessoensis) as revealed by AFLP analysis.

Japanese scallop (Mizuhopecten yessoensis) is a cold-tolerant bivalve that was introduced to China for aquaculture in 1982. In this study, amplified fragment length polymorphism (AFLP) markers were used to investigate levels of genetic diversity within M. yessoensis cultured stocks and compare them with wild populations. Six pairs of primer combinations generated 368 loci among 332 individuals, in four cultured and three wild populations. High polymorphism at AFLP markers was found within both cultured and wild M. yessoensis populations. The percentage of polymorphic loci ranged from 61.04% to 72.08%, while the mean heterozygosity ranged from 0.2116 to 0.2596. Compared with wild populations, the four hatchery populations showed significant genetic changes, such as lower expected heterozygosity and percentage of polymorphic loci, and smaller frequency of private alleles, all indicative of a reduction in genetic diversity. Some genetic structures were associated with the geographical distribution of samples; with all samples from Dalian and Japan being closely related, while the population from Russia fell into a distinct clade in the phylogenetic analysis. The genetic information derived from this study indicated that intentional or accidental release of selected Japanese scallops into natural sea areas might result in disturbance of local gene pools and loss of genetic variability. We recommend monitoring the genetic variability of selected hatchery populations to enhance conservation of natural Japanese scallop resources.