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July 7, 2019

Identification of a GC-rich leptin gene in chicken.

Abstract Leptin (LEP) plays a key role in the regulation of energy balance in mammals, with less well-defined roles in lower vertebrates. The existence of LEP orthologs in birds has been controversial and only recently have several avian LEP genes been reported. Still, LEP has been assumed to be missing from the chicken (Gallus gallus) genome. Here, we identify the chicken LEP (cLEP), which shares only 25% amino acid sequence identity with its human ortholog. However, it has considerably higher homology with avian LEPs, and phylogenetic analysis shows it as clustering with avian LEP sequences. The cLEP and the other known avian LEP sequences all have high GC content. We argue that this property is behind the technical difficulties impeding the identification of these avian genes. The identification of cLEP can be expected to help elucidate leptin signaling pathways in wild and domestic chickens.

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July 7, 2019

Complete genome sequence of the proteorhodopsin-containing marine flavobacterium Dokdonia donghaensis DSW-1T, isolated from seawater off Dokdo in the East Sea (Sea of Korea).

Dokdonia spp. have been used for investigating the lifestyles of proteorhodopsin-containing photoheterotrophs and for understanding marine photobiology. Here, we report the complete genome sequence of Dokdonia donghaensis DSW-1(T) using the PacBio sequencing platform. It should provide a valuable resource for comparative genomic studies of marine life harboring microbial rhodopsins among others. Copyright © 2016 Kim et al.

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July 7, 2019

Complete genome sequence of Streptomyces parvulus 2297, integrating site-specifically with actinophage R4

Streptomyces parvulus 2297, which is a host for site-specific recombination according to actinophage R4, is derived from the type strain ATCC 12434. Species of S. parvulus are known as producers of polypeptide antibiotic actinomycins and have been considered for industrial applications. We herein report for the first time the complete genome sequence of S. parvulus 2297. Copyright © 2016 Nishizawa et al.

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July 7, 2019

Complete genome sequence of a potential probiotic, Lactobacillus pentosus MP-10, isolated from fermented Aloreña table olives.

We report here a 3,698,214-bp complete genome sequence of a potential probiotic Lactobacillus pentosus strain, MP-10, isolated from brines of naturally fermented Aloreña green table olives; it is considered the largest sequenced genome among lactobacilli to date. The annotated genome sequence revealed the presence of 3,558 open reading frames (ORFs) and 87 structural RNAs. Copyright © 2016 Abriouel et al.

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July 7, 2019

Permanent improved high-quality draft genome sequence of Nocardia casuarinae strain BMG51109, an endophyte of actinorhizal root nodules of Casuarina glauca.

Here, we report the first genome sequence of a Nocardia plant endophyte, N. casuarinae strain BMG51109, isolated from Casuarina glauca root nodules. The improved high-quality draft genome sequence contains 8,787,999 bp with a 68.90% GC content and 7,307 predicted protein-coding genes. Copyright © 2016 Ghodhbane-Gtari et al.

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July 7, 2019

Effector diversification contributes to Xanthomonas oryzae pv. oryzae phenotypic adaptation in a semi-isolated environment.

Understanding the processes that shaped contemporary pathogen populations in agricultural landscapes is quite important to define appropriate management strategies and to support crop improvement efforts. Here, we took advantage of an historical record to examine the adaptation pathway of the rice pathogen Xanthomonas oryzae pv. oryzae (Xoo) in a semi-isolated environment represented in the Philippine archipelago. By comparing genomes of key Xoo groups we showed that modern populations derived from three Asian lineages. We also showed that diversification of virulence factors occurred within each lineage, most likely driven by host adaptation, and it was essential to shape contemporary pathogen races. This finding is particularly important because it expands our understanding of pathogen adaptation to modern agriculture.

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July 7, 2019

Third-generation sequencing and analysis of four complete pig liver esterase gene sequences in clones identified by screening BAC library.

Pig liver carboxylesterase (PLE) gene sequences in GenBank are incomplete, which has led to difficulties in studying the genetic structure and regulation mechanisms of gene expression of PLE family genes. The aim of this study was to obtain and analysis of complete gene sequences of PLE family by screening from a Rongchang pig BAC library and third-generation PacBio gene sequencing.After a number of existing incomplete PLE isoform gene sequences were analysed, primers were designed based on conserved regions in PLE exons, and the whole pig genome used as a template for Polymerase chain reaction (PCR) amplification. Specific primers were then selected based on the PCR amplification results. A three-step PCR screening method was used to identify PLE-positive clones by screening a Rongchang pig BAC library and PacBio third-generation sequencing was performed. BLAST comparisons and other bioinformatics methods were applied for sequence analysis.Five PLE-positive BAC clones, designated BAC-10, BAC-70, BAC-75, BAC-119 and BAC-206, were identified. Sequence analysis yielded the complete sequences of four PLE genes, PLE1, PLE-B9, PLE-C4, and PLE-G2. Complete PLE gene sequences were defined as those containing regulatory sequences, exons, and introns. It was found that, not only did the PLE exon sequences of the four genes show a high degree of homology, but also that the intron sequences were highly similar. Additionally, the regulatory region of the genes contained two 720bps reverse complement sequences that may have an important function in the regulation of PLE gene expression.This is the first report to confirm the complete sequences of four PLE genes. In addition, the study demonstrates that each PLE isoform is encoded by a single gene and that the various genes exhibit a high degree of sequence homology, suggesting that the PLE family evolved from a single ancestral gene. Obtaining the complete sequences of these PLE genes provides the necessary foundation for investigation of the genetic structure, function, and regulatory mechanisms of the PLE gene family.

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July 7, 2019

Complete genome sequence of plant growth-promoting bacterium Leifsonia xyli SE134, a possible gibberellin and auxin producer.

Leifsonia xyli SE134 is a potential plant growth-promoting bacterium isolated from a soil in Daegu, Republic of Korea, which produces large amounts of gibberellin (GA) and indole acetic acid (IAA). In this study, we sequenced the complete genome of L. xyli SE134 by the Pacific Biosciences RSII (PacBio) Single Molecule Real Time (SMRT) sequencing technology. The genome of L. xyli SE134 contains a single chromosome that is 3,596,761bp in length, with 70.2% G+C content. The genome contains 3466 protein-coding genes (CDSs) and 51 rRNA- and 46 tRNA-coding genes. By genomic analysis, we identified genes that are potentially involved in plant growth promotion such as genes participating in indole-3-acetic acid (IAA) biosynthesis, siderophore, and trehalose production. L. xyli SE134 also harbours genes for central carbohydrate metabolism, indicating that it can utilise the root exudates with other organic materials as an energy source. Furthermore, the SE134 genome is equipped with various kinds of genes for adaptation to plant surfaces, e.g. defence against desiccation, nutrient deficiencies, and oxidative stress, and a large proportion of genes related to secretion mechanisms and signalling. The genetic information provided here may help to expand this bacterium’s biotechnological potential and to further improve its plant growth-promoting characteristics. Copyright © 2016. Published by Elsevier B.V.

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July 7, 2019

The genome of Pleurotus eryngii provides insights into the mechanisms of wood decay.

Pleurotus eryngii (DC.) Quél. is widely used for bioconverting lignocellulosic byproducts into biofuel and value added products. Sequencing and annotating the genome of a monokaryon strain P. eryngii 183 allows us to gain a better understanding of carbohydrate-active enzymes (CAZymes) and oxidoreductases for degradation of lignocellulose in white-rot fungi. The genomic data provides insights into genomic basis of degradation mechanisms of lignin and cellulose and may pave new avenues for lignocellulose bioconversion. Copyright © 2016. Published by Elsevier B.V.

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July 7, 2019

Genome sequence and analysis of the Japanese morning glory Ipomoea nil.

Ipomoea is the largest genus in the family Convolvulaceae. Ipomoea nil (Japanese morning glory) has been utilized as a model plant to study the genetic basis of floricultural traits, with over 1,500 mutant lines. In the present study, we have utilized second- and third-generation-sequencing platforms, and have reported a draft genome of I. nil with a scaffold N50 of 2.88?Mb (contig N50 of 1.87?Mb), covering 98% of the 750?Mb genome. Scaffolds covering 91.42% of the assembly are anchored to 15 pseudo-chromosomes. The draft genome has enabled the identification and cataloguing of the Tpn1 family transposons, known as the major mutagen of I. nil, and analysing the dwarf gene, CONTRACTED, located on the genetic map published in 1956. Comparative genomics has suggested that a whole genome duplication in Convolvulaceae, distinct from the recent Solanaceae event, has occurred after the divergence of the two sister families.

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July 7, 2019

Characterization of a new chlorovirus type with permissive and non-permissive features on phylogenetically related algal strains.

A previous report indicated that prototype chlorovirus PBCV-1 replicated in two Chlorella variabilis algal strains, NC64A and Syngen 2-3, that are ex-endosymbionts isolated from the protozoan Paramecium bursaria. Surprisingly, plaque-forming viruses on Syngen 2-3 lawns were often higher than on NC64A lawns from indigenous water samples. These differences led to the discovery of viruses that exclusively replicate in Syngen 2-3 cells, named Only Syngen (OSy) viruses. OSy-NE5, the prototype virus for the proposed new species, had a linear dsDNA genome of 327kb with 44-nucleotide-long, incompletely base-paired, covalently closed hairpin ends. Each hairpin structure was followed by an identical 2612 base-paired inverted sequence after which the DNA sequence diverged. OSy-NE5 encoded 357 predicted CDSs and 13 tRNAs. Interestingly, OSy-NE5 attached to and initiated infection in NC64A cells but infectious progeny viruses were not produced; thus OSy-NE5 replication in NC64A is blocked at some later stage of replication. Copyright © 2016 Elsevier Inc. All rights reserved.

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July 7, 2019

Comprehensive genomic and phenotypic metal resistance profile of Pseudomonas putida strain S13.1.2 isolated from a vineyard soil.

Trace metals are required in many cellular processes in bacteria but also induce toxic effects to cells when present in excess. As such, various forms of adaptive responses towards extracellular trace metal ions are essential for the survival and fitness of bacteria in their environment. A soil Pseudomonas putida, strain S13.1.2 has been isolated from French vineyard soil samples, and shown to confer resistance to copper ions. Further investigation revealed a high capacity to tolerate elevated concentrations of various heavy metals including nickel, cobalt, cadmium, zinc and arsenic. The complete genome analysis was conducted using single-molecule real-time (SMRT) sequencing and the genome consisted in a single chromosome at the size of 6.6 Mb. Presence of operons and gene clusters such as cop, cus, czc, nik, and asc systems were detected and accounted for the observed resistance phenotypes. The unique features in terms of specificity and arrangements of some genetic determinants were also highlighted in the study. Our findings has provided insights into the adaptation of this strain to accumulation and persistence of copper and other heavy metals in vineyard soil environment.

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