Project description:Wood formation involves sequential developmental events, requiring the coordination of multiple hormones. Brassinosteroids (BRs) play a key role in wood development, but little is known about the cellular and molecular processes that underlie wood formation in tree species. Here, we generated transgenic poplar lines editing one or several members of PdBRI1s, the orthologs of Arabidopsis vascular-enriched BR receptors, and showed how inhibition of BR signaling influences wood development at the proteome levels. Six Populus PdBRI1 genes form three gene pairs and each exhibits high expression in the basal stems. Simultaneous mutation of PdBRI1-1, 2, 3 and 6, the orthologs of Arabidopsis vascular-enriched BR receptors BRI1, BRL1 and BRL3, resulted in a severe defect in growth. Particularly, the stems of these mutant lines displayed a discontinuous ring of cambium and patterning defects in derived secondary vascular tissues. Abnormal formation of cambia within cortical parenchyma was also observed in the stem of pdbri1-1;2;3;6. Transgenic poplars editing PdBRI1-1 or PdBRI1-1;2;6 had phenotypic alterations in stem development at 4.5 months of growth, indicating functional redundancy among these PdBRI1 genes. An analysis of the proteome from pdbri1-1;2;3;6 stems revealed differential expression of a number of proteins associated with wood development and hormones.

Project description:We sequenced mRNA from dormant, reactivating, and actively growing C. lanceolata vascular cambium using tangential cryosections to generate the first transcriptome dynamics that may serve as a gene expression profile blueprint for cambium development and wood formation in the conifer. Examination of mRNA levels in dormant, reactivating, and actively growing C. lanceolata vascular cambium, respectively

Project description:Analysis of Paulownia tomentosa cambial tissues at gene expression level. The hypothesis tested in the present study was that miRNAs can regulate the development of the vascular cambium.The results provide new insights into the important regulatory functions of miRNAs in vascular cambium development and wood formation in conifers.

Project description:Brassinosteroids (BRs) are growth-promoting steroid hormones in plants. BRs affect plant growth by regulating panels of downstream genes. Much effort has been made to establish BR-regulated gene expression networks, but these published expression networks poorly overlap. To address this, here we build an optimal BR-regulated gene expression network. 7- and 24-day-old seedlings of constitutive photomorphogenesis and dwarfism (cpd) mutant and bri1-701 (brassinosteroid-insensitive 1) brl1 (BRI1-like receptor genes 1) brl3 (BRI1-like receptor genes 3) triple mutant seedlings were treated with brassinolide (BL), and RNA sequencing (RNA-seq) was used to detect differentially expressed genes (DEGs). By this approach, we generated a transcriptomic database of 4498 DEGs and identified 110 transcription factors specifically respond to BR at different stage. Moreover, we found that among the identified BR-responsive transcription factors, ABSCISIC ACID-INSENSlTIVE4 (ABI4), an ethylene response factor (ERF) transcription factor, inhibits BR-regulated growth. Compared to wild-type plants, the abi4-102 mutant was less sensitive to brassinazole (BRZ) and more sensitive to BR. Next, we performed a chromatin immunoprecipitation followed by high-throughput sequencing (ChIP-seq) assay and found that ABI4 directly binds to the BAK1 (BRI1 Associated receptor Kinase 1) promoter and inhibits transcription. These results provide new insights into BR-responsive gene functions in regulating plant growth at different stages and may serve as a basis for predicting gene function, selecting candidate genes, and improving the understanding of BR regulatory pathways.

Project description:We sequenced mRNA from dormant, reactivating, and actively growing C. lanceolata vascular cambium using tangential cryosections to generate the first transcriptome dynamics that may serve as a gene expression profile blueprint for cambium development and wood formation in the conifer.

Project description:Brassinosteroid hormones are essential for growth and development in seed plants. In Arabidopsis, transcriptional factors from the AtBES1 (BRI1-EMS-SUPPRESSOR1)/AtBZR1 (BRASSINAZOLE-RESISTANT 1) family, are main regulators of steroid phytohormone Brassinosteroids, which finely coordinate gene expression. While genome sequence analysis in Marchantia polymorpha failed to identify BR receptors homologues to the BRI1-family, a homologue of downstream BR-regulated BES1/BZR1 transcription factors is present. Here, we decipher the biological function of MpBES1 in liverwort. Mpbes1 knock out plants have impaired thallus development, pointing up the conservation of BES1 function in organ development. RNAseq analysis of Mpbes1 reveals a prominent deregulation of oxidation processes, responses to stress and carbohydrate metabolism. Furthermore, in the Arabidopsis orthologs of Mpbes1 deregulated genes, described targets of AtBES1/BZR1 are overrepresented, suggesting a major conservation in the signaling module. In conclusion, this study unravels the origin of BES1/BZR1 family of transcriptional factors in plant cell division.

Project description:Wood is one of the most important and enormous biomass that is widely used in our life. It is formed by successive addition of secondary xylem that develops continuously from cambium. The transcriptome of nst1 nst3 “double-knockout” lines was examined to know the effect of mutations on wood formation. Experiment Overall Design: Total RNA was extracted from the base 4 cm part of inflorescence stems whose heights were between 12 and 17 cm of three independent nst1-1 nst3-1 double T-DNA tagged lines and the whole transcriptome was compared with that of wild-type plant.

Project description:The genes induced by mechanical stimuli may be also involved in disease resistance and wood formation and development in Acacia koa. If so, mechanically stressed A. koa may be used as a model to study disease resistance and wood formation and development. Microarray analysis was performed to determine expression levels of 4,000 genes related to disease resistance and wood development in Acacia koa in response to mechanical stimuli (touch).

Project description:Arabidopsis, when grown under short day conditions (16 hours dark, 8 hours light, 22oC) develop extensive secondary thickened hypocotyls with both a vascular and cork cambium (Chaffey et al, 2002, Phys. Plant., 114:594-600). It has been found that once secondary xylem development is completed within the Arabidopsis hypocotyls, it closely resembles the structure of the wood of angiosperm trees (Chaffey et al, 2002, Phys. Plant., 114:594-600). We can utilise this model Arabidopsis tree to identify genes that are important for secondary cell wall formation in xylem cells and therefore important for wood development. Columbia plants were grown for 3 months under short day conditions and secondary thickened hypocotyls were snap-frozen in liquid nitrogen. RNA was isolated from these hypocotyls and submitted to NASC for probing against the ATH1-121501 full GeneChip.

Project description:Arabidopsis, when grown under short day conditions (16 hours dark, 8 hours light, 22oC) develop extensive secondary thickened hypocotyls with both a vascular and cork cambium (Chaffey et al, 2002, Phys. Plant., 114:594-600). It has been found that once secondary xylem development is completed within the Arabidopsis hypocotyls, it closely resembles the structure of the wood of angiosperm trees (Chaffey et al, 2002, Phys. Plant., 114:594-600). We can utilise this model Arabidopsis tree to identify genes that are important for secondary cell wall formation in xylem cells and therefore important for wood development. Columbia plants were grown for 3 months under short day conditions and secondary thickened hypocotyls were snap-frozen in liquid nitrogen. RNA was isolated from these hypocotyls and submitted to NASC for probing against the ATH1-121501 full GeneChip. Experiment Overall Design: 2 samples