Project description:Measurement of changes in the mRNA transcript abundance of 1709 cDNAs in desiccated (5% RWC) and hydrated (100% RWC) Xerophyta humilis leaves and roots, and in mature seeds. 3105 cDNA clones (corresponding to 1709 unique cDNAs) were randomly selected from X. humilis cDNA libraries (Leaf Dehydration (LD), Leaf Rehydration (LR), Root Dehydration (RD) and Root Rehydration (RR)), amplified by PCR, and printed on each glass slide multiple times (ranging from 4 to 12X), such that each printed block contained a random unbiased mixture of cDNAs from the 4 different cDNA libraries. Total RNA extracted from each X. humilis leaf, root and seed sample was labelled with Cy3 and hybridized to the printed cDNA arrays. Data was recorded for three biological replicates for each of the samples being investigated.

Project description:Measurement of changes in the mRNA transcript abundance of 1709 cDNAs in Xerophyta humilis leaves at 6 relative water contents (RWC) (100%, 80%, 60%, 40%, 20% and 5%RWC respectively).

Project description:Measurement of changes in the mRNA transcript abundance of 1709 cDNAs in Xerophyta humilis leaves at 6 relative water contents (RWC) (100%, 80%, 60%, 40%, 20% and 5%RWC respectively). 3105 cDNA clones (corresponding to 1709 unique cDNAs) were randomly selected from X. humilis cDNA libraries (Leaf Dehydration (LD), Leaf Rehydration (LR), Root Dehydration (RD) and Root Rehydration (RR)), amplified by PCR, and printed on each glass slide multiple times (ranging from 4 to 12X), such that each printed block contained a random unbiased mixture of cDNAs from the 4 different cDNA libraries. Total RNA extracted from each X. humilis leaf sample was linearly amplified, labelled with Cy3, and simultaneously hybridized with Cy5 labelled common reference RNA, to the printed cDNA arrays. The reference RNA comprised equal amounts of total RNA pooled from 6 different RWC experimental samples. Data was recorded for five biological replicates for each of the 6 RWC stages being investigated.

Project description:Gene transcript abundances were analyzed with samples taken from hydrated, moderate dehydration (70% RWC) and desiccated (10% RWC) leaf tissues of resurrection plant species B. hygrometrica by using RNA-Seq. Totally, 9888 genes were identified as differentially expressed genes.The results provided insight for exploring the mechanisms of desiccation tolerance.

Project description:Gene transcript abundances were analyzed with samples taken from hydrated, moderate dehydration (70% RWC) and desiccated (10% RWC) leaf tissues of resurrection plant species B. hygrometrica by using RNA-Seq. Totally, 9888 genes were identified as differentially expressed genes.The results provided insight for exploring the mechanisms of desiccation tolerance. Examination of mRNA transcript abundances in hydrated, dehydrating to 70% RWC and dehydrating to 10% RWC leaf tissues, for each treatment, three biological replicates were included.

Project description:Gene transcript abundances were analyzed with samples taken from desiccated (10% RWC), rehydrated to 50% RWC (RE50% RWC) and rehydrated to 100% RWC (RE100% RWC) leaf tissues of resurrection plant species B. hygrometrica by using RNA-Seq. Totally, 10207 genes were identified as differentially expressed genes.The results provided insight for exploring the mechanisms of desiccation tolerance.

Project description:To examine the Boea hygrometrica genome methylation landscape and assess its functional significance during dehydration, we generated the first single-base resolution genome methylation maps for leaf tissues of hydrated, dehydrating to 70% RWC and dehydrating to 10% RWC (desiccating). The overall density of methyl-cytosine was not broadly altered by dehydration. There is, however, a small increase in intensity both for the whole genome and regionally during the first dehydration step (70% RWC) returning to near hydrated levels as leaves desiccate. We identified 5575 differentially methylated region-related genes during dehydration. The finding may provide an important clue for exploring molecular mechanisms and the regulation of desiccation tolerance at the whole-genome level.

Project description:Gene transcript abundances were analyzed with samples taken from hydrated (HD), moderate dehydration (MDH), desiccated (SDH), partially recovered (PRE) and fully recovered (FRE) gametophores of P. patens by using RNA-Seq. Totally, 14686 transcripts were identified as differentially expressed transcripts.The results provided insight for exploring the mechanisms of desiccation tolerance and their evolution.

Project description:In this study we have tried to utilize the unique aspects of the T. ruralis response to desiccation and rehydration to design a strategy to identify rehydrins that are of low abundance and perhaps completely novel to the desiccated or rehydration transcriptomes. We have constructed two Subtractive Suppression Hybridization (SSH) libraries (Diatchenko et al., 1996) that are designed to enrich for differentially expressed low-abundance transcripts contained within gametophytic cells either in the slow-dried state (mRNP sequestrated rehydrin transcripts) or cells that have been rapidly dried, rehydrated and sampled at 2h of hydration (rehydrin and recovery transcripts) when the translational change in gene expression is at its peak (Oliver 1991). To achieve this aim we constructed SSH libraries using PolyA RNA isolated from the polysomal (mRNP) fractions from the slow-dried and 2h rehydrated rapid dried gametophytes selected against PolyA RNA from hydrated control gametophytes as the source for driver cDNA. Collections of cDNA clones from each library were sequenced and used to generate a small T. ruralis SSH cDNA microarray for expression profiling of both total RNA extracts for transcript accumulation assessments and polysomal RNA extracts for transcript sequestration and recruitment assessments. To assess the expression characteristics of the transcripts represented by the SSH contigs we established a cDNA microarray containing the inserts (PCR derived fragment) from each of the 768 individual SSH ESTs, with the exception of thirteen that failed to generate a PCR fragment. Twelve of the missing thirteen SSH EST cDNAs were replaced with PCR fragments from previously isolated T. ruralis cDNAs four of which, representing the ribosomal proteins S14, S16, L23 and L15 (Wood et al., 2000, Zeng and Wood 2000), were previously reported to be constitutively expressed and were added to serve as normalization genes. The remaining eight clones, Tr155, Tr217, Tr403, Tr416, Tr421 (described by Scott and Oliver, 1994), and TrCDPK (U82087) were added as either positive â??up-regulatedâ?? (Tr155, Tr403, Tr421), negative â??down-regulated (Tr217, Tr416), or neutral (TrCDPK) controls based on previous northern analyses. The cDNAs were printed from two 384 well plates in 12 blocks (two columns of 6) of 24 x 8 spots such that each SSH EST and controls were represented in triplicate. Each of the triplicate cDNAs was separated within the blocks to eliminate possible spatial hybridization bias. All hybridizations were duplicated as dye swaps with two separate RNA preparations, from large populations of individual gametophytes (isolated from a minimum of three separate clumps), serving as the source for the sscDNA Cy3 and Cy5 labeled probes. The RNA preparations for the Total polyA RNA were by necessity separate samples from those used to isolate Polysomal poly A RNA.

Project description:Small RNA transcript abundances were analyzed with samples taken from hydrated (HD), moderate dehydration (MDH), desiccated (SDH), partially recovered (PRE) and fully recovered (FRE) gametophores of P. patens by using next generation sequencing. Totally, 147 microRNAs were identified as differentially expressed miRNAs.The results provided insight for exploring the mechanisms of desiccation tolerance and their evolution.