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Genome-wide analysis reveals Hsf1 maintains high transcript abundance of target genes controlled by strong constitutive promoter in Saccharomyces cerevisiae | Biotechnology for Biofuels and Bioproducts

In synthetic biology, the strength of promoter elements is the basis for precise regulation of target gene transcription levels, which in turn increases the yield of the target product. However, the results of many researches proved that excessive transcription levels of target genes actually reduced the yield of the target product. This phenomenon has been found in studies using different microorganisms as chassis cells, thus, it becomes a bottleneck problem to improve the yield of the target product. In this study, promoters PGK1p and TDH3p with different strengths were used to regulate the transcription level of alcohol acetyl transferase encoding gene ATF1. The results demonstrated that the strong promoter TDH3p decreased the production of ethyl acetate. The results of Real-time PCR proved that the transcription level of ATF1 decreased rapidly under the control of TDH3p, and the unfolded protein reaction was activated, which may be the reason for the abnormal production caused by t ....

Gene Denovo Biotechnology Co , United Statesa , Yeast Processing Reagent , Takara Biotechnol , Gene Denovo Biotechnology ,

Overexpression of a novel gene (Pt2015) endows the commercial diatom Phaeodactylum tricornutum high lipid content and grazing resistance | Biotechnology for Biofuels and Bioproducts

The marine diatom Phaeodactylum tricornutum is a commercially viable species due to its bioactive substances and lipid productivity. Increasing attention has been paid to the isolation or genetic modification of species or strains with a rapid growth rate and large quantities of lipids. Furthermore, contamination of microzooplankton has been one of the major constraints in P. tricornutum large-scale cultivation, which adversely affects growth and greatly impedes the course of biomass production industrialization. Here, based on our previous transcriptomics of P. tricornutum, we found a novel gene (ID: 7202015, hereafter called Pt2015) which affects morphotype of P. tricornutum. Pt2015 protein is located in the plastid, which is highly homologous to part of the sequences of exosome component. The morphotype of the Pt2015 knockout strain (termed 2015KO) using CRISPR/Cas9 method is fusiform, but the Pt2015 overexpression strain (termed oeT) demonstrates a majority triradiate morphotype (a ....

United States , United Kingdom , Heinz Walz , Leica Microsystems , Santa Clara , Ted Pella , National Center , Gene Denovo Biotechnology Co , Ted Pella Inc , Institute Of Hydrobiology , Chinese Academy Of Sciences , Rahmi Lale Norwegian University Of Science , Beckman Coulter , Carl Zeiss , Chinese Academy , Golden Gate , New England Biolabs , Rahmi Lale , Norwegian University , Electron Microscopy China , Thermo Fisher Scientific , French Press , San Jose , Tian Gen , Agilent Technologies , Palo Alto ,

In Vitro Development Competence of Ovine Oocytes

Investigating the beneficial effects of selenium doped carbon quantum dots supplementation on the in vitro development competence of ovine oocytes. Read more.. ....

United States , Inner Mongolia , Nei Mongol , Walter Heape , Ningbo Sansheng , Library Prep Kit , Experimental Group Setting , Gene Denovo Biotechnology Co , Thermo Fisher , Sigma Aldrich , Statistical Package For The Social Sciences , Thermo Fisher Scientific , Field Transmission Electron Microscope , Diffraction System , X Ray Photoelectron Spectroscopy , Thermo Fisher Scientific Escalab , Lexperimental Group , Effect Assessment , Vector Laboratories , Mitotracker Red , Lysis Buffer , Prep Kit , Agilent Technologies , Palo Alto , Illumina Hiseq , Gene Denovo Biotechnology ,