Analysis on YABBY Transcription Factor Family of Original Plant Cannabis sativa of Traditional Chinese Medicine Cannabis Fructus / 中国实验方剂学杂志

Objective:To analyze the sequence characteristics，chromosomal location，gene structure，conserved motifs，phylogenetic evolution and differential gene expressions of the <italic>Cannabis sativa</italic> YABBY transcription factor family，in order to provide a molecular basis for in-depth study of <italic>YABBY</italic> gene function and theoretical support for the selection and breeding of superior hemp varieties. Method:The bio-informatics method was used to identify and analyze the <italic>CsYABBY </italic>gene family of the original hemp seed plant. PlantTFDB，ExPASy，MEME，CELLO，PLANTCARE and other online websites and TBtools，MEGA，DNAMAN and other software were used for prediction，visualization and analysis. Result:<italic>C. sativa</italic> contains 6 <italic>YABBY</italic> gene members distributed on 5 chromosomes，in which 5 members are localized in the nucleus and 1 in extracellular， they consist of 185-235 amino acids， and the isoelectric point is between 5.05 and 9.34， the molecular weight is between 20 582.45-26 282.7 Da. All of CsYABBY proteins contain two conserved domains， namely Zinc finger domain and YABBY domain. <italic>CsYABBY</italic> genes have multiple cis-acting elements，and their expressions differ in different tissues and cultivars. Conclusion:The expressions of CsYABBY may be affected by hormones and externally environmental factors. <italic>CsYABBY</italic> gene expressions are tissue-specific. In addition，YABBY transcription factor family may play an important role in regulating the development of <italic>C. sativa</italic> female flowers，and subfamilies YAB1 and YAB5 may be involved in the synthesis of cannabinoids.

Identification and expression analysis of the C2H2 gene family in Cannabis sativa L / 药学学报

C2H2 transcription factors play an important role in plant growth, development and the regulation of secondary metabolism. This article identifies members of the C2H2 gene family in Cannabis sativa L. at the genome level. Chromosomal location and linkage, evolutionary relationships, and identification of conserved motifs was determined from the C. sativa genome and transcriptome data using bioinformatics tools and on-line websites such as TBtools, MEGA software, NCBI, PlantTFDB, ExPASy, HMMSCAN, MEME, WoLFPSORT and PlantCARE. The results show that C. sativa contains 30 members of the C2H2 gene family (named CsC2H2-1-CsC2H2-30) distributed on 9 chromosomes. The encoded proteins range in length from 138 to 635 amino acids, and the theoretical isoelectric points range from 5.85 to 9.52. Molecular weights range from 15 909.48 to 68 445.53 Da. Transcriptome analysis showed that CsC2H2 was differentially expressed in the female flowers, bracts, leaves, and stems of the Diku variety and female flowers of nine different varieties of C. sativa. Quantitative real-time PCR verified that CsC2H2-1, CsC2H2-5, and CsC2H2-19 were significantly expressed in the female flowers and bracts of the Diku variety. This provides a theoretical basis for in-depth study of the function of the C2H2 gene family and the breeding of high-quality C. sativa varieties.