Identification And Phylogenetic Analysis Of The JmjC Domain-containing Histone Demethylase Gene Family In Plants

Histone modification is an important epigenetic modification that controls gene transcriptional regulation in eukaryotes.Histone methylation is accomplished by histone methyltransferase and can occur on two amino acid residues,arginine and lysine.JumonjiC(JmjC)domain-containing histone demethylase regulates gene transcription and chromatin structure by changing the methylation state of the lysine residue site and plays an important role in plant growth and development.A total of 329 JmjC family genes were identified from 20 different plant species.The results of evolutionary analysis showed that the JmjC genes were detected in each specie,that is,the JmjC genes were already present in algae.Phylogenetic analysis shows that the KDM3/JHDM2 subfamily of genes may emerge when plants transition from water to land,and that in the course of evolution,the JmjC domain-only subfamily may be lost in the Mesotaenium endlicherianum and the Physcomitrella patens.According to the conserved domain analysis,all plant JmjC genes contain typical JmjC domain,which is highly conserved in the process of plant evolution.Analysis of cis-acting elements in the promoter region of plant JmjC genes showed that the promoter region of plant JmjC genes were rich in plant hormones,biological and abiotic stress related acting elements.Analysis of transcriptome data and the interaction networks of JmjC proteins showed that JmjC genes play an important role in plant growth and development.At the same time,carried out genome-wide identification and comprehensive analysis of JmjC genes in the allotetraploid cotton species Gossypium hirsutum.In total,50 JmjC genes were identified and in G.hirsutum,and 25 JmjC genes were identified in its two diploid progenitors,G.arboreum and G.raimondii,respectively.Phylogenetic analysis divided these JmjC genes into five subfamilies.A collinearity analysis of the two subgenomes of G.hirsutum and the genomes of G.arboreum and G.raimondii uncovered a one-to-one relationship between homologous genes of the JmjC gene family.Most homologs in the JmjC gene family between A and D subgenomes of G.hirsutum have similar exon-intron structures,which indicated that JmjC family genes were conserved after the polyploidization.All G.hirsutum JmjC genes were found to have a typical JmjC domain,and some genes also possess other special domains important for their function.Analysis of promoter regions revealed that cis-acting elements,such as those related to hormone and abiotic stress response,were enriched in G.hirsutum JmjC genes.According to a reverse transcription-quantitative polymerase chain reaction(RT-qPCR)analysis,most G.hirsutum JmjC genes had high abundance expression at developmental stages of fibers,suggesting that they might participate in cotton fiber development.In addition,some G.hirsutum JmjC genes were found to have different degrees of response to cold or osmotic stress,thus indicating their potential role in these types of abiotic stress response.The results clarify the evolutionary history of JmjC genes in plants and provide useful information for understanding biological function of plant JmjC genes.