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Journal of cotton research:a new platform for cotton science exchange and communication

2018-11-09LIFuguang

Journal of Cotton Research 2018年1期

LIFuguang

Journal of Cotton Research(JCR)represents a brand new start of a scientific forum to advance cotton research communication.JCRis affiliated with Institute of Cotton Research of Chinese Academy of Agricultural Sciences(ICR,CAAS)and China Association of Agricultural Science Societies (CAASS),benefiting from solid academic support.In partnership with the leading Open Access brand BMC(part of Springer Nature),JCR aims to provide quality open access publishing service to the community.

The launch of JCR is not possible without many people’s contribution.With joint effort of editorial board members and editorial office staff,we are fully committed to publish fine articles in JCR,which will be a valuable source for both researchers and readers worldwide in cotton science.

The objective of launching JCR

Past experience suggests that science- and technology-related improvements will further develop the cotton industry,which has been experiencing fluctuations in recent decades mainly owing to the unsettled world economy.Consequently,many fields of cotton research need to be more thoroughly investigated and we see breakthroughs happening in fields like genomicsand bioinformatics,emerge.For example,a Cotton Genome Project was initiated by the Institute of Cotton Research of Chinese Academy of Agricultural Sciences(ICR,CAAS)in cooperation with BGI-China(ICR,CAAS,State Key Laboratory of Cotton Biology 2018).The publication of genomes of Gossypium raimondii,G.arboreum,G.hirsutum and G.barbadense(Wang et al.2012;Li et al.2014;Li et al.2015;Zhang et al.2015;Yuan et al.2015),and the resequencing of upland cotton and G.arboreum(Du et al.2018;Ma et al.2018),have been achieved.These cotton whole-genome sequencing projects have helped to forward genomics research,especially for the genetic improvement and evolutionary study of cotton.Thus,cotton researchers have many advances to share and many ideas to discuss.As a brand-new,open access journal,JCR will publish cutting-edge research,especially on genetics and genomics,abiotic and biotic stresses tolerance/resistance,and seed and fiber improvements.All articleswill bepublished onlineimmediately upon acceptance(after peer review).

JCR is preparing the following thematic series:

·Quantitative trait loci/genes related to fiber quality,yield or pest-resistance from different Gossypium species.

·Comparative functional/structural genomics of Gossypium arboreum,G.hirsutum and G.barbadense.

Each series will be conducted and supervised by one or more of the editorial board members(https://jcottonres.biomedcentral.com/about/editorial-board).

We are publishing a few interesting articles to mark the journal launch

Wang et al.have provided a summary of the relationships and diversity among species of the Gossypium genus,as well as the designations for individual genomes and chromosomes in Gossypium in Designations for individual genomes and chromosomes in Gossypium.The genus was divided into eight diploid genomic groups(A through G,and K),as well as one allopolyploid clade(AD genome),formed from mergers and chromosomal doubling in the A and D genomic ancestors millions years ago.This cytogenetic and genomic nomenclature will facilitate comparative genomic studies,basic taxonomic exploration,breeding and germplasm introgression.

In Genome-wide identification and expression analysis of Gossypium RING-H2 finger E3 ligase genes revealed their roles in fiber development,and phytohormone and abiotic stress responses,Qanmber et al.found that RING-H2 finger E3 ligase(RH2FE3)genes encode cysteine-rich proteins that mediate E3 ubiquitin ligase activity and degrade target substrates.G.hirsutum RH2FE3 genes strongly correlated with cotton fiber development.Additionally,most of the identified genes were up-regulated in response to Brassinolide,gibberellic acid,indole-3-acetic acid,salicylic acid and abiotic stresses.Thus,RH2FE3 genes play roles in cotton fiber development and respond to plant hormones and abiotic stresses.

Using F2segregated populations constructed using a short-branch cotton variety,X1570,crossed with a long-branch genotype,Ekangmian-13,to analyze the short-fruiting branch gene and marker-assisted selection with single nucleotide polymorphism(SNPs)linked to its traits,Zhang et al.identified a locus,SNP_GH1570,which is verified 100%co-segregated with short fruiting branch trait.This could be used for molecular-assisted selection to improve cotton architecture and help in cotton breeding and cultivation.

The planting of transgenic Bacillus thuringiensis(Bt)cotton is a major approach to control cotton bollworm.Lüet al.analyzed the effects of first-generation transgenic Bt cotton on the control of cotton bollworm in North China by investigating several parameters,including the number of cotton bollworms,the damage they inflicted to different cotton organs and the Bt protein content,in mainly cultivated cotton varieties from 2008 to 2015.Bt cotton varieties have been planted for more than 20 years in North China,and almost all Bt varieties are capable of controlling cotton bollworm effectively in North China.

We hope you enjoy reading the first series of articles.We also look forward to your submissions and feedback.The journal couldn’t succeed without your continuous support.

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Received:6 June 2018 Accepted:6 June 2018