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Forests, Vol. 14, Pages 2195: Allele-Specific Transcriptional Regulation of Shoot Regeneration in Hybrid Poplar
Forests doi: 10.3390/f14112195
Authors: Xiawei Ding Chengjin Wen Ganggui Yang Ying Guo Liangjiao Xue
Plant tissue regeneration is a key process for genetic transformation and genome editing. The exploration of regulatory mechanisms in plant regeneration would improve regeneration efficiency. In comparison to some model plants, the genomic heterozygosity is much higher in forest trees, increasing the complexity of transcriptional regulation. Here, we report the allele-specific transcriptional analysis in hybrid poplar 84K (Populus alba × P. tremula var. glandulosa cv. 84K) during the shoot regeneration process. Firstly, 180 regeneration-related genes (REGs) and 2446 REG-homologous genes (REGHs) were identified in hybrid poplar. The expression patterns of REGs exhibited that about half of them were positively correlated between poplar and Arabidopsis at the locus level. The expression levels of REGHs vary among the gene family at different stages during callus and shoot induction. Among the gene clusters with similar expression patterns, the distribution of gene families in poplar and Arabidopsis also exhibits large variations. At the allele level, most of the allele pairs of REGs were positively correlated in expression. The expression patterns of genes in auxin synthesis, transport, and signaling pathways agree with the general patterns. Due to the presence/absence of variations between two subgenomes, two YUC alleles and two IAA alleles are present only in one subgenome, and the expression patterns of the two alleles are greatly different. Our analysis indicates the conservativeness and diversity of transcriptional regulation during shoot regeneration in poplar and Arabidopsis. The complexity in allele expression contributed by heterozygosity suggests the importance of genotyping in the screening of explants for plant regeneration.
