Project description:Oidiodendron maius Zn strain:Zn Genome sequencing and assembly

Project description:Comparison of the Streptococcus pneumoniae D39 wild-type in CDM Plus 0mM Zn and CDM plus 0.2 mM Zn Two condition design comparison of Wild-type strain including a dye swap

Project description:RNA sequencing analysis of the transcriptome of V. parahaemolyticus RIMD2210633 strain grown under Zn-deficient (LB pretreated with 35 μM TPEN) and Zn-replete conditions (LB pretreated with 35 μM TPEN along with 500 μM Zn).

Project description:The transcriptome of crown tissue from several Zn-efficient and Zn-inefficient rice genotypes, exposed or not to Zn deficiency, was investigated using RNA sequencing. By grouping data from different genotypes within each efficiency group, we were able to 1) identify several well-known and novel Zn transporters involved in Zn retranslocation from the crown to the shoot and roots in response to Zn deficiency; 2) determine that Zn deficiency triggers the conversion of soluble sugars into starch; and 3) detect several candidate genes possibly conferring Zn efficiency.

Project description:Zn-limited cells accumulate Cu in intracellular structures in a reversable manner. We used RNAseq analysis to monitor gene expression in Zn-limited cells, and during a time course (0 - 24 h) after Zn resupply.

Project description:Zn-limited cells accumulate Cu in intracellular structures in a reversable manner. We used RNAseq analysis to monitor gene expression in Zn-limited cells, and during a time course (0 - 24 h) after Zn resupply. Comparison of Chlamydomonas reinhardtii gene expression when Zn deficient cells are resupplied with 2.5 M-BM-5M Zn. Time points 0 (before resupply), 1.5, 3, 4.5, 12, and 24 hours after resupply. Four biological replicates per condition.

Project description:In rice (Oryza sativa L.), the number of panicles, spikelets per panicle and grain weight are important components of grain yield. These characteristics are controlled by quantitative trait loci (QTLs) and are derived from variation inherent in crops.The identification of different yield related QTLs facilitates an understanding of the mechanisms involved in cereal crop yield, and may have utility in improving grain yield in cereal crops. an understanding of the mechanisms involved in cereal crop yield, and may have utility in improving grain yield in cereal crops. In the present study, We cloned and characterized a large-panicle QTL, and confirmed that the newly identified gene OsEBS (enhancing biomass and spikelet number) increased plant height, leaf size and spikelet number per panicle, leading to an average of 37.62% increase in total grain yield per plant. trait loci (QTLs) and are derived from variation inherent in crops.

Project description:The purpose of this study is to evaluate the safety, tolerability, and potential clinical benefits of ZN-c3 administered in combination with encorafenib and cetuximab in adult participants with metastatic BRAF V600E mutant colorectal cancer previously treated with one or two treatment regimens.

Project description:We describe the preparation, evaluation, and application of an S100A12 protein-conjugated solid support, hereafter the “A12-resin,” that can remove 99% of Zn(II) from complex biological solutions without significantly perturbing the concentrations of other metal ions. The A12-resin can be applied to selectively deplete Zn(II) from diverse tissue culture media and from other biological fluids including human sera. To further demonstrate the utility of this approach, we investigated metabolic, transcriptomic, and metallomic responses of HEK293T cells cultured in medium depleted of Zn(II) using S100A12. Our data indicate that dividing cells can maintain a constant pool of free Zn(II), even under conditions of severe Zn(II) deprivation. We expect that the A12-resin will facilitate interrogation of disrupted Zn(II) homeostasis in biological settings, uncovering novel roles for Zn(II) in biology.

Project description:Functional substitution of the essential trace metals zinc (Zn) and cobalt (Co) within metalloenzymes has been well documented in marine diatoms and is known to be prevalent among varying genera and species. In contrast to the majority of species studied to date, we find that the polar diatom Chaetoceros RS19, originally isolated from the Ross Sea, Antarctica, has a Zn requirement that cannot be met by Co and thus does not demonstrate a Zn/Co substitution ability as assessed by growth rate. We investigate the underlying metabolic basis of Zn/Co substitution at the transporter, sensor/chaperone, and metalloenzyme level by employing metal quota, metal uptake rate, and proteomic analyses of this substitution-incapable diatom. Co appears to be transported into the cell, but not efficiently utilized by Zn metalloenzymes.