Amanote Research
Register
Sign In
Discover open access scientific publications
Search, annotate, share and cite publications
Publications by Junxi Cao
Phenotypic, Histological and Proteomic Analyses Reveal Multiple Differences Associated With Chloroplast Development in Yellow and Variegated Variants From Camellia Sinensis
Scientific Reports
Multidisciplinary
Related publications
Deciphering Tea Tree Chloroplast and Mitochondrial Genomes of Camellia Sinensis Var. Assamica
Scientific data
Statistics
Probability
Information Sciences
Uncertainty
Library
Information Systems
Computer Science Applications
Education
Metabolomic Analyses of Leishmania Reveal Multiple Species Differences and Large Differences in Amino Acid Metabolism
PLoS ONE
Multidisciplinary
Transcriptome and Metabolite Profiling Reveal Novel Insights Into Volatile Heterosis in the Tea Plant (Camellia Sinensis)
Molecules
Organic Chemistry
Molecular Medicine
Analytical Chemistry
Theoretical Chemistry
Pharmaceutical Science
Medicine
Drug Discovery
Chemistry
Physical
De Novo Transcriptome and Phytochemical Analyses Reveal Differentially Expressed Genes and Characteristic Secondary Metabolites in the Original Oolong Tea (Camellia Sinensis) Cultivar ‘Tieguanyin’ Compared With Cultivar ‘Benshan’
BMC Genomics
Biotechnology
Genetics
Integrated Genomic and Proteomic Analyses Reveal Novel Mechanisms of the Methyltransferase SETD2 in Renal Cell Carcinoma Development
Molecular and Cellular Proteomics
Biochemistry
Medicine
Analytical Chemistry
Molecular Biology
Sensitivity Analyses for Robust Causal Inference From Mendelian Randomization Analyses With Multiple Genetic Variants
Epidemiology
Epidemiology
From Chloroplast Biogenesis to Chlorophyll Accumulation: The Interplay of Light and Hormones on Gene Expression in Camellia Sinensis Cv. Shuchazao Leaves
Frontiers in Plant Science
Plant Science
Genomic and Proteomic Analyses of Prdm5 Reveal Interactions With Insulator Binding Proteins in Embryonic Stem Cells
Molecular and Cellular Biology
Cell Biology
Molecular Biology
Gene Coexpression Networks Reveal Key Drivers of Flavonoid Variation in Eleven Tea Cultivars (Camellia Sinensis)