正文
Regulation of gene expression (transcriptional, epigenetic, and post-transcriptional mechanisms)
Applications of nucleic acid research in disease management, genetic enhancement, and environmental adaptation
Nucleic acids in key biological processes such as growth, molting, sexual development, and immunity
Cutting-edge technologies in nucleic acid research (e.g., gene editing, single-cell RNA sequencing, ChIP-seq, long-read sequencing)
Advanced microscopy and imaging techniques (e.g., Cryo-EM, super-resolution microscopy, AFM) for studying nucleic acid interactions
Nucleic acid-protein interaction studies (e.g., EMSA, SPR, pull-down assays, single-molecule fluorescence microscopy)
Epitranscriptomic analyses of RNA modifications and their regulatory roles in crustaceans
Genome-wide association studies (GWAS) and SNP analysis in crustaceans
This Special Issue aims to provide a comprehensive examination of nucleic acids in crustaceans, emphasizing their structural and functional roles in governing essential biological processes such as molting, growth, sexual development, immune responses, and environmental adaptation. The Issue will highlight the diverse types of nucleic acids (mRNA, miRNA, lncRNA, and DNA), focusing on their contributions to gene regulation, cellular function, and physiological adaptations.
We particularly welcome submissions employing advanced genomic, transcriptomic, epigenomic, and molecular techniques (e.g., scRNA-seq, spatial transcriptomics, ChIP-seq, ATAC-seq, 4C-seq, ChIRP, RAP-seq, Hi-C, CRISPR-based gene editing, RNAi, shRNA/ASO-mediated silencing, RIP-seq, RNA pull-down assays, ISH, super-resolution microscopy, Cryo-EM, FRET, SPR, EMSA, and AFM), which significantly enhance our understanding of nucleic acid structure, function, and interactions in crustacean biology. Alternatively, broader-scale studies, including genome-wide association studies (GWAS), SNP analyses, genetic mapping, or proteomic investigations that clearly elucidate nucleic acid functions or provide substantial insights into crustacean physiology, may also be considered. Submissions predominantly or exclusively reliant upon high-throughput sequencing methods (e.g., mRNA-seq) may not be prioritized. Preference will be given to focused studies providing in-depth characterization of specific nucleic acids, rather than broad or general genomic surveys.
Potential topics include, but are not limited to:
Guest editors: Ardavan Farhadi
农学
Remote Sensing of Environment
Remote sensing for assessing water-carbon coupling of terrestrial ecosystems
全文截稿: 2026-02-28
影响因子: 9.085
CCF分类: 无
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 环境科学 - 1区
• 小类 : 成像科学与照相技术 - 1区
• 小类 : 遥感 - 1区
网址:
https://www.journals.elsevier.com/remote-sensing-of-environment/
Remote sensing techniques offer valuable capabilities for mapping biochemical and physical variables of the terrestrial ecosystems, including leaf area index (LAI), vegetation water, biomass, productivity, chlorophyll and fluorescence, temperature, transpiration, vegetation height and structure, soil moisture and evapotranspiration etc., along with dynamic ecosystem processes like phenology and disturbance events. These observations significantly advance our understanding of global water, carbon, and energy cycles. With dedicated efforts on recent satellite missions including SMOS, SMAP, Fengyun, ICESat-2, Sentinel-1/2/3, ECOSTRESS, Landsat-8/9, Gaofen, and the upcoming NISAR, BIOMASS, CIMR, FLEX, and SBG, there is an unprecedented opportunity for novel satellite products and improved mechanistic understanding and model representation of water-carbon coupling in terrestrial ecosystems. Moreover, improvements in the spatial, temporal, and spectral domains across these remote sensing techniques are enabling new insights into the resilience and resistance of ecosystems to climate change and changing disturbance regimes such as drought, heatwave, wildfire, and deforestation. In this background, the special issue aims to highlight pioneering advancements in remote sensing of ecohydrology, fostering the exchange of leading-edge research and ideas. Topics for this special issue include but are not limited to:
Guest editors: Hongliang Ma, Benjamin Dechant, Jiangyuan Zeng, Aleixandre Verger, William K. Smith, Youngryel Ryu
农学
Global and Planetary Change
Tectonics, sedimentation and magmatism in sedimentary basins – processes and societal relevance
