Xue‐jiang Guo - Histology

Author Information

Xuejiang Guo is a prolific researcher affiliated with the State Key Laboratory of Reproductive Medicine, Department of Histology and Embryology, Nanjing Medical University, Nanjing 211166, China. Guo's research primarily focuses on reproductive biology, spermatogenesis, and proteomic analysis, contributing significantly to the understanding of various genetic and molecular mechanisms associated with reproductive health.

Research Contributions

Xuejiang Guo has made substantial contributions to the field of reproductive medicine and histology. Notable works include studies on gene knockout mice revealing critical insights into photoreceptor and sperm flagella impairments due to the absence of CEP78, as well as advancements in proteomic analysis on spermatogenesis. Guo has also explored the ubiquitome in mouse testis and identified proteomic biomarkers from extracellular vesicles in human seminal plasma for differential diagnosis of azoospermia. Further research by Guo includes the role of mitochondrial RBP complexes in germline development, genetic studies of spermatogenesis abnormalities, and the impact of RNA splicing on aged mouse oocytes' developmental potential.

Aliases

Xuejiang Guo is also known by several aliases including Xue Jiang Guo, Xue-jiang Guo, and Xue‒jiang Guo.

Publication and Citation Metrics

Total Citations	7625
h-index	42
Total Papers	219
Recent Papers	Study on gene knockout mice and human mutant individual reveals absence of CEP78 causes photoreceptor and sperm flagella impairments (2022) Recent progress of proteomic analysis on spermatogenesis (2022) Systematic analysis of the ubiquitome in mouse testis (2021) Quantitative proteomic biomarkers from extracellular vesicles of human seminal plasma in the differential diagnosis of azoospermia (2021) Mitochondrial RBP Complex AMG-1/SLRP-1 is Required for Germline Development and Reproductive Success in Caenorhabditis elegans (2021) Progress in the genetic studies of spermatogenesis abnormalities (2021) Integrative proteome analysis implicates aberrant RNA splicing in impaired developmental potential of aged mouse oocytes (2021) Association of assisted reproductive technology, germline de novo mutations and congenital heart defects in a prospective birth cohort study (2021) Multiple 'omics'-analysis reveals the role of prostaglandin E2 in Hirschsprung's disease (2021) Serine/Threonine-Protein Kinase 3 Facilitates Myocardial Repair After Cardiac Injury Possibly Through the Glycogen Synthase Kinase-3β/β-Catenin Pathway (2021)