Project description:Nitzschia palea overview

Project description:Nitzschia palea RNA-Seq Assembly

Project description:Nitzschia palea strain:CPCC-160 Genome sequencing and assembly

Project description:Nitzschia palea strain:CPCC-160 Transcriptome or Gene expression

Project description:Pseudo-nitzschia multiseries (Ps-n) is a toxigenic marine diatom that produces the neurotoxin, domoic acid. We screened for candidate genes that may be involved in domoic acid production by determining changes in transcript profiles in Ps-n cultures that were in late exponential (low-domoic-acid-producing) vs. stationary (high-domoic-acid-producing) growth states. We also identified a number of candidate reference genes for future RT-qPCR studies, based on their stability in this study. Ps-n RNA was extracted from late exponential and stationary phase cultures. Experiments included one axenic culture, and two non-axenic cultures. Experiments were dye-swapped to account for differences in dye labeling and detection efficiencies: a) the axenic culture experiment included 4 technical replicate arrays (i.e., 2 dye-swapped experiments = 4 total hybridizations), and b) the non-axenic culture experiments each included 6 technical replicate arrays (i.e., 3 dye-swapped experiments = 6 total hybridizations).

Project description:Palea steindachneri overview

Project description:RNA sequencing (RNA-seq) experiment was performed on 18 samples of Nitzschia laevis cells collected at 3 h, 6 h and 12 h after inoculation in treated medium with glucose addition (+G) and control group (-G) respectively. The de novo assembly totally generated 16650 unigenes.

Project description:wetland metagenome Salar de Huasco MOSE8

Project description:Precise regulation of cell proliferation and differentiation is a key factor for diversity in morphology during organogenesis. Rice palea comprises two distinct regions, the marginal region of palea (MRP) and the body of palea (BOP), which exhibit heterogeneity in cellular composition and behavior. This study reveals that REP1 promotes epidermal cell proliferation and differentiation in the BOP, forming hard silicified protrusion cells, by regulating the cyclin-dependent kinase gene, OsCDKB1;1. Conversely, OsMADS6 and OsMADS32 are expressed exclusively in the MRP, where they limit the division rates of epidermal cells by inhibiting OsCDKB2;1 gene expression, promoting endoreduplication and resulting in the formation of elongated epidermal cells. Furthermore, the OsMADS6-OsMADS32 complex and REP1 exhibit reciprocal inhibition to fine-tune the balance between cell division and differentiation during palea morphogenesis. Therefore, our study highlights the importance of controlling cellular heterogeneity in shaping plant morphological diversity.

Project description:Genotyping By Sequencing For Estimating Relative Abundances Of Diatom Taxa In Mock Communities