Project description:The aim of the present study is to list the genes involved in cotton (G. arboreum) leaf epicuticular wax production and deposition. For this purpose differentially expressed genes (especially, down-regulated in wax deficient mutant plant) in wild and epicuticular wax mutant (Gawm3) plants were founded through cDNA microarray, developed from the wild plant leaves.

Project description:Studies of wax genes in cotton (Gossypium arboreum)

Project description:Transcriptomic small RNA sequencing in Gossypium arboreum (A2 cotton)

Project description:A diploid cotton variety which grows as a small tree or a shrub

Project description:Transcriptome analysis of extant cotton progenitors and identification of genome-specific-single nucleotide polymorphism (GNP) for allelic discrimination in allotetraploid cotton

Project description:Genomic rearrangements and evolutionary changes in 3D chromatin topologies in the cotton tribe (Gossypieae)

Project description:PacBio HiFi sequencing data of diploid and tetraploid cotton cultivars

Project description:Gossypium arboreum under cotton leaf curl disease infestation

Project description:Cotton genome sequencing project

Project description:Small RNAs (21-24 nt) are pivotal regulators of gene expression that guide both transcriptional and post-transcriptional silencing mechanisms in diverse eukaryotes, including most if not all plants. MicroRNAs (miRNAs) and short interfering RNAs (siRNAs) are the two major types, both of which have a demonstrated and important role in plant development, stress responses and pathogen resistance. In this work, we used a deep sequencing approach (Sequencing-By-Synthesis, or SBS) to develop sequence resources of small RNAs from different Gossypium arboreum tissues (leaves, flowers and fibers). The high depth of the resulting datasets enabled us to examine in detail critical small RNA features as size distribution, tissue-specific regulation and sequence conservation between different organs in this species. We also developed database resources and a dedicated website (http://smallrna.udel.edu/) with computational tools for allowing other users to identify new miRNAs or siRNAs involved in specific regulatory pathways, verify the degree of conservation of these sequences in other plant species and map small RNAs on genes or larger regions of the maize genome under study.