The mitochondrial genome sequence and molecular phylogeny of the turkey, Meleagris gallopavo

The mitochondrial genome (mtGenome) has been little studied in the turkey ( Meleagris gallopavo ), a species for which there is no publicly available mtGenome sequence. Here, we used PCR-based methods with 19 pairs of primers designed from the chicken and other species to develop a complete turkey mtGenome sequence. The entire sequence (16 717 bp) of the turkey mtGenome was obtained, and it exhibited 85% similarity to the chicken mtGenome sequence. Thirteen genes and 24 RNAs (22 tRNAs and 2 rRNAs) were annotated. An mtGenome-based phylogenetic analysis indicated that the turkey is most closely related to the chicken, Gallus gallus , and quail, Corturnix japonica . Given the importance of the mtGenome, the present work adds to the growing genomic resources needed to define the genetic mechanisms that underlie some economically significant traits in the turkey.     

Using the chicken genome sequence in the development and mapping of genetic markers in the turkey (Meleagris gallopavo)

The efficacy of employing the chicken genome sequence in developing genetic markers and in mapping the turkey genome was studied. Eighty previously uncharacterized microsatellite markers were identified for the turkey using BLAST alignment to the chicken genome. The chicken sequence was then used to develop primers for polymerase chain reaction where the turkey sequence was either unavailable or insufficient. A total of 78 primer sets were tested for amplification and polymorphism in the turkey, and informative markers were genetically mapped. Sixty-five (83%) amplified turkey genomic DNA, and 33 (42%) were polymorphic in the University of Minnesota/Nicholas Turkey Breeding Farms mapping families. All but one marker genetically mapped to the position predicted from the chicken genome sequence. These results demonstrate the usefulness of the chicken sequence for the development of genomic resources in other avian species.     

Comparative embryonic development of the skeleton of the domestic turkey (Meleagris gallopavo) and other galliform birds

Ossification sequences are poorly known for birds in general, even for common domestic and experimental species. Such sequences constitute a rich source of data on character evolution, and may even provide phylogenetic information. It is not clear, however, what factors influence ossification sequences and what the relative importance of phylogeny is to the sequences. Galliformes constitute a good group to examine these variables. These birds are osteologically conservative, have precocial young, but have a broad spectrum of body sizes and incubation periods. Here, I describe the embryonic ossification of the skeleton in the domestic turkey (Meleagris gallopavo), and compare it to the domestic chicken (Gallus gallus) and the Japanese quail (Coturnix coturnix). Ossification sequences in this group are not affected by egg size or incubation period. They also appear to be independent of both the spatial location and the embryonic tissue from which the osteogenic cells originated. Accumulation of a wider sample of ossification sequences from more morphologically variable avian taxa will be necessary in order to test functional and phylogenetic effects.     

Analysis of expressed sequence tags from Chaetomium cupreum grown under conditions associated with mycoparasitism

Aims:  To elucidate the molecular mechanisms associated with mycoparasitism from Chaetomium cupreum , an effective biocontrol agent with ability against plant pathogenic fungi.
Methods and Results:  One cDNA library was constructed from conditions predicted to resemble mycoparasitic process. A total of 1876 ESTs were generated and assembled into 1035 unigenes. B last X search revealed that 585 unigenes had similarities with sequences available from public databases. Based on the ESTs abundance, MFS monosaccharide transporter was found as the gene expressed at the highest level. A KEGG analysis allowed mapping of 60 metabolic pathways well represented by the glycolysis/gluconeogenesis, d -arginine and ornithine metabolism, and tryptophan metabolism. The genes related to mycoparasitism were detected.
Conclusions:  The results revealed that the cell walls of the fungal pathogen can simulate some aspects of the mycoparasitic interaction between C. cupreum and its targets.
Significance and Impact of the Study:  This is the first report to study genes expression under conditions associated with the mycoparasitic process. The findings contribute to elucidate the molecular mechanisms involved in mycoparasitism and will help to advance our efforts in developing novel strategies for biocontrol of plant fungal diseases.     

Microsatellite markers developed from Theobroma cacao L. expressed sequence tags

Theobroma cacao L. expressed sequence tags (ESTs) were converted into useful genetic markers for fingerprinting individuals and genetic linkage mapping. Primers were designed to microsatellite‐containing ESTs. Twenty‐two T. cacao accessions, parents of various mapping populations segregating for disease resistance and crop yield characteristics, were tested. Twenty‐seven informative loci were discovered with 26 primer pairs. The number of detected alleles ranged from two to 11 and averaged 4.4 per locus. All 27 markers could be mapped into at least one of the existing F₁ or F₂ populations segregating for agronomically important traits.     

Mapping of 1400 expressed sequence tags in the bovine genome using a somatic cell hybrid panel

A bovine/hamster hybrid cell panel consisting of 30 independent hybrids was developed to locate genes. Polymerase chain reaction analysis of 279 microsatellites on the cattle linkage map in this panel revealed the presence of all chromosomes in either entire or fragmented form. Among primer pairs prepared from bovine 3'-expressed sequence tags (ESTs), 1400 ESTs were assigned to specific chromosomes, of which 1303 were newly assigned in this study, and mapped 854 (61%) to 1 of 192 chromosomal segments using this panel. The regional mapping of new genes to cattle chromosomes can be rapidly achieved using this panel.     

Preliminary linkage map of the turkey (Meleagris gallopavo) based on microsatellite markers

The turkey is an agriculturally important species for which, until now, there is no published genetic linkage map based on microsatellite markers--still the markers most used in the chicken and other farm animals. In order to increase the number of markers on a turkey genetic linkage map we decided to map new microsatellite sequences obtained from a GT-enriched turkey genomic library. In different chicken populations more than 35-55% of microsatellites are polymorphic. In the turkey populations tested here, 43% of all turkey primers tested were found to be polymorphic, in both commercial and wild type turkeys. Twenty linkage groups (including the Z chromosome) containing 74 markers have been established, along with 37 other unassigned markers. This map will lay the foundations for further genetic mapping and the identification of genes and quantitative trait loci in this economically important species. Genome comparisons, based on genetic maps, with related species such as the chicken would then also be possible. All primer information, polymerase chain reaction (PCR) conditions, allele sizes and genetic linkage maps can be viewed at http://roslin.thearkdb.org/. The DNA is also available on request through the Roslin Institute.     

Genetic variation across the historical range of the wild turkey (Meleagris gallopavo)

Genetic differences within and among naturally occurring populations of wild turkeys (Meleagris gallopavo) were characterized across five subspecies' historical ranges using amplified fragment length polymorphism (AFLP) analysis, microsatellite loci and mitochondrial control region sequencing. Current subspecific designations based on morphological traits were generally supported by these analyses, with the exception of the eastern (M. g. silvestris) and Florida (M. g. osceola) subspecies, which consistently formed a single unit. The Gould's subspecies was both the most genetically divergent and the least genetically diverse of the subspecies. These genetic patterns were consistent with current and historical patterns of habitat continuity. Merriam's populations showed a positive association between genetic and geographical distance, Rio Grande populations showed a weaker association and the eastern populations showed none, suggesting differing demographic forces at work in these subspecies. We recommend managing turkeys to maintain subspecies integrity, while recognizing the importance of maintaining regional population structure that may reflect important adaptive variation.     

Classification and comparative analysis of Curcuma longa L. expressed sequences tags (ESTs) encoding glycine-rich proteins (GRPs)

Glycine-rich proteins (GRPs) are a group of proteins characterized by their high content of glycine residues often occurring in repetitive blocs. The diverse expression pattern and sub cellular localization of various GRPs suggest their implication in different physiological processes. Several GRPs has been isolated and characterized from different monocots and dicots. However, little or no information is available about the structure and function of GRPs in asexually reproducing plants. In this study, in-silico analysis of expressed sequence tag database resulted in the isolation of fifty-one GRPs from Curcuma longa L., an asexually reproducible plant of great medicinal and economic significance. Phylogenetic analysis grouped the GRPs into four distinct classes based on conserved motifs and nature of glycine-rich repeats. Majority of the isolated GRPs exhibited high homology with known GRPs from other plants that are expressed in response to various stresses. The presence of high structural diversity and signal peptide in some GRPs suggest their diverse physiological role and tissue specific localization. The isolated sequences can be used as a framework for cloning, characterization and expressional analysis of GRPs in response to various biotic and abiotic stresses in Curcuma longa as well as other asexually reproducing plants.     

Isolation of genes expressed during the developmental stages of the oyster mushroom, Pleurotus ostreatus, using expressed sequence tags

In order to isolate and identify the developmentally regulated genes during fruiting body development, cDNA libraries were constructed from eight developmental stages of the Oyster mushroom, Pleurotus ostreatus. From these libraries, 11 761 expressed sequence tags (PoESTs) were generated. Of these, 4060 different genes (PoUnigenes) were identified, representing 34.5% of the entire genome. Redundancy analysis of ESTs during the developmental stages identified eight, 13 and two genes that were specifically expressed in mycelia, fruiting body and basidiospore, respectively. RT-PCR was used to confirm the specific expression of nine genes which showed specific redundancy in fruiting body stages, four genes of which were expressed specifically in fruiting body stages as expected in redundancy analysis, and other genes were expressed abundantly in fruiting body stages. The EST database of P. ostreatus generated during this study provides a genetic and biochemical basis for future studies of the developmental stages of basidiomycetes.     

梅花鹿鹿茸尖端组织ESTs分析

文章通过对东北梅花鹿(Cervus nippon hortulorum)鹿茸尖端组织cDNA文库随机测序获得了906条高质量ESTs,906条ESTs拼接后代表了701个Unigenes,其中包括重叠群86个,单拷贝615个。Blast分析显示具已知和推测功能的基因580个(82.7%),通过Gene Ontology(GO)分类对获得的580个功能基因进行了包括分子功能、生物过程和细胞组分在内的3个层次的功能注释,并根据BLAST的注释结果及进一步的筛选与分析,共得到39条与鹿茸尖端组织生长发育相关的基因。cDNA文库的构建和ESTs分析填补了鹿科动物在NCBI公共数据库上基因组信息的空白,并为科学的开发和利用梅花鹿资源提供了重要的理论依据。     

Identification of genes related to Parkinson's disease using expressed sequence tags.

In a search for novel target genes related to Parkinson's disease (PD), two full-length cDNA libraries were constructed from a human normal substantia nigra (SN) and a PD patient's SN. An analysis of the gene expression profiles between them was done using the expressed sequence tags (ESTs) frequency. Data for the differently expressed genes were verified by quantitative real-time RT-PCR, immunohistochemical analysis and a cell death assay. Among the 76 genes identified with a significant difference (P > 0.9), 21 upregulated genes and 13 downregulated genes were confirmed to be differentially expressed in human PD tissues and/or in an MPTP-treated mice model by quantitative real-time RT-PCR. Among those genes, an immunohistochemical analysis using an MPTP mice model for alpha-tubulin including TUBA3 and TUBA6 showed that the protein levels are downregulated, as well as the RNA levels. In addition, MBP, PBP and GNAS were confirmed to accelerate cell death activity, whereas SPP1 and TUBA3 to retard this process. Using an analysis of ESTs frequency, it was possible to identify a large number of genes related to human PD. These new genes, MBP, PBP, GNAS, SPP1 and TUBA3 in particular, represent potential biomarkers for PD and could serve as useful targets for elucidating the molecular mechanisms associated with PD.     

Identification of expressed sequence tags of watermelon (Citrullus lanatus) leaf at the vegetative stage

A cDNA library was constructed using mRNA prepared from leaves of watermelon [Citrullus lanatus (Thunb.) Matsum&Nakai] at the vegetative stage. Randomly selected cDNA clones were sequenced in order to identify potentially informative genes. Database comparisons indicated that out of the 704 watermelon cDNA clones, 399 clones (56.7 %) revealed a high degree of sequence similarity to genes from other organisms. These expressed sequence tag clones were divided into ten categories depending upon gene function. Since this kind of experiment has not previously been carried out in this genome, random nucleotide sequencing of these cDNAs could contribute considerable information concerning the novel genes in this organism. Received: 10 July 1999 / Revision received: 20 December 1999 / Accepted: 11 January 2000