Zhipeng Gao scite author profile

The genomes of two isolates of porcine respiratory and reproductive syndrome virus (PRRSV) from China, designated HB-1(sh)/2002 and HB-2(sh)/2002, were sequenced and analyzed. The size of the genomes of HB-1(sh)/2002 and HB-2(sh)/2002 were 15,411 and 15,373 nucleotides respectively, excluding the poly(A) tails. Comparative analysis with the genomic sequences of another Chinese isolate (BJ-4) and North American (VR2332) and European (Lelystad virus, LV) viruses revealed that HB-1(sh)/2002 shared 89.8% identity with BJ-4 and VR2332, but only 54.7% with LV; while HB-2(sh)/2002 shared 89.4% and 89.5% identity with BJ-4 and VR2332 respectively and 54.3% with LV, indicating that the two new Chinese isolates were related to the North American PRRSV genotype. Phylogenetic analysis based on the nucleotide sequence of the structural protein ORF's showed that the two new Chinese isolates belong to same genetic subgroup. HB-2(sh)/2002 additionally exhibited variations in the NSP2 nonstructural protein encoded by ORF1 and the structural protein GP3 encoded by ORF3 in comparison with other North American PRRSV isolates, namely a 12 amino acids deletion in Nsp2 and one amino acid deletion in GP3 were found in HB-2(sh)/2002. Therefore, HB-2(sh)/2002 was a novel strain with unique deletions.

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Rapid growth of Moso bamboo (Phyllostachys edulis): Cellular roadmaps, transcriptome dynamics, and environmental factors

Chen

Guo

Ramakrishnan

et al. 2022

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Moso bamboo (Phyllostachys edulis) shows remarkably rapid growth (114.5 cm/day), but the underlying biological mechanisms remain unclear. After examining more than 12,750 internodes from more than 510 culms from 17 Moso populations, we identified internode 18 as a representative internode for rapid growth. This internode includes a 2-cm cell division zone (DZ), a cell elongation zone up to 12 cm, and a secondary cell wall (SCW) thickening zone. These zones elongated 11.8 cm, produced approximately 570,000,000 cells, and deposited ∼28 mg g−1 dry weight (DW) lignin and ∼44 mg g−1 DW cellulose daily, far exceeding vegetative growth observed in other plants. We used anatomical, mathematical, physiological, and genomic data to characterize development and transcriptional networks during rapid growth in internode 18. Our results suggest that (1) gibberellin may directly trigger the rapid growth of Moso shoots, (2) decreased cytokinin and increased auxin accumulation may trigger cell DZ elongation, and (3) abscisic acid and mechanical pressure may stimulate rapid SCW thickening via MYB83L. We conclude that internode length involves a possible tradeoff mediated by mechanical pressure caused by rapid growth, possibly influenced by environmental temperature and regulated by genes related to cell division and elongation. Our results provide insight into the rapid growth of Moso bamboo.

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Reduction of microbial diversity in grassland soil is driven by long-term climate warming

et al. 2022

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Anthropogenic climate change threatens ecosystem functioning. Soil biodiversity is essentialfor maintaining the health of terrestrial systems, but how climate change affects the richness and abundance of soil microbial communities remains unresolved. We examined the effects of warming, altered precipitation and annual biomass removal on grassland soil bacterial, fungal and protistan communities over 7 years to determine how these representative climate changes impact microbial biodiversity and ecosystem functioning. We show that experimental warming and the concomitant reductions in soil moisture played the predominant role in shaping microbial biodiversity by decreasing the richness of bacteria (9.6%), fungi (14.5%), and protists (7.5%). Our results also show positive associations between microbial biodiversity and ecosystem functional processes such as gross primary productivity and microbial biomass. We conclude that the detrimental effects of biodiversity loss might be more severe in a warmer world. MAINBiodiversity, the variety of genes, species, and ecosystems which constitute life on our planet 1 , is dramatically affected by human alterations of global environment 2 . Biodiversity underscores healthy ecosystem functions and assures the production of essential goods, services, and benefits to society, such as climate regulation, landscape stability, fibers, and food production 1 . However, such benefits are threatened by the unprecedented biodiversity loss 3,4 caused by anthropogenic global environmental changes like climate warming, altered precipitation patterns, and land use changes 5 . Studies demonstrate that biodiversity loss impairs the functioning of natural ecosystems * *

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Zhipeng Gao

Mutation of a histidine-rich calcium-binding-protein gene in wheat confers resistance to Fusarium head blight

Genomic characterization of two Chinese isolates of Porcine respiratory and reproductive syndrome virus

Rapid growth of Moso bamboo (Phyllostachys edulis): Cellular roadmaps, transcriptome dynamics, and environmental factors

Reduction of microbial diversity in grassland soil is driven by long-term climate warming

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