Project description:To investigate the roles of sRNAs in keeping embryo dormancy or germination in Larix leptolepis, we deciphered the endogenous "sRNAome" in dormant and germinated embryos. High-throughput sequencing of the sRNA libraries showed that dormant embryos exhibited a length bias towards 24-nt, while germinated embryos showed a bias towards a 21-nt and/or 22-nt length. Both of proportions for miRNAs to the non-redundant and redundant sRNAs were higher in germinated embryos than those in dormant embryos, while the ratio of unknown sRNAs was higher in dormant embryos than in germinated embryos. The proportion of 21-nt and 22-nt sRNAs increased in germinated embryos, which might attribute to the higher expression level of miRNAs. We identified a total of 160 conserved miRNAs from 39 families, 16 novel miRNAs, and 14 plausible miRNA candidates, of which novel and non-conserved known miRNAs might be the main contributors. These findings indicate that larch and possibly other gymnosperms have complex mechanisms of gene regulation involving sRNAs and miRNAs operating transcriptionally and post-transcriptionally during embryo dormancy and germination.

Project description:Small non-coding RNAs (sncRNAs) are emerging as key regulators of embryogenesis. To investigate the roles of sRNAs in regulating synchronism of somatic embryogenesis in Larix leptolepis, we deciphered the endogenous "sRNAome" in synchronous and desynchronous embryos. The 24-nt class sRNAs were overrepresented in both synchronous embryos and desynchronous embryos, accounting for 85.29% and 44.79%. A total of 29 miRNAs were upregulated in synchronous embryos, whereas 59 miRNAs were upregulated in desynchronous embryos. We describe the emerging theme for sncRNAs function: inhibiting the precocious expression, thus regulating the synchronism of somatic embryogenesis. These findings indicate that larch and possibly other gymnosperms have complex mechanisms of gene regulation involving sRNAs and miRNAs operating transcriptionally and post-transcriptionally during the regulation of synchronism. One embryogenic cell line of Japanese larch (Larix leptolepis), designated as D878, with a high embryo maturation capacity was used in this study. Embryogenic callus was induced from immature embryos of Japanese larch on induction medium followed by sub-culture. Calli at the proembryogenic mass III stage were cultured on maturation medium in a dark environment at 25 M-BM-1 2M-BM-0C. Samples were cultured on ABA-plus or ABA-minus maturation medium for 45 days. All samples were snap-frozen in liquid nitrogen, and stored in liquid nitrogen until RNA extraction.

Project description:Small non-coding RNAs (sncRNAs) are emerging as key regulators of embryogenesis. To investigate the roles of sRNAs in regulating synchronism of somatic embryogenesis in Larix leptolepis, we deciphered the endogenous "sRNAome" in synchronous and desynchronous embryos. The 24-nt class sRNAs were overrepresented in both synchronous embryos and desynchronous embryos, accounting for 85.29% and 44.79%. A total of 29 miRNAs were upregulated in synchronous embryos, whereas 59 miRNAs were upregulated in desynchronous embryos. We describe the emerging theme for sncRNAs function: inhibiting the precocious expression, thus regulating the synchronism of somatic embryogenesis. These findings indicate that larch and possibly other gymnosperms have complex mechanisms of gene regulation involving sRNAs and miRNAs operating transcriptionally and post-transcriptionally during the regulation of synchronism.

Project description:Several factors influence the culture conditions and somatic embryogenesis responses, such as the role of plant growth regulators (PGRs) during the establishment of in vitro cultures. For instance, auxin is required for callus induction and the acquisition of embryogenic capacity in different species, but the removal of auxin is needed for the further differentiation of somatic embryos. Thus, we aimed to evaluate the effects of residual 2,4-dichlorophenoxyacetic acid (2,4-D) on the maturation of sugarcane somatic embryos. First, embryogenic calli were separated into two groups: the PGR-free group was cultured without 2,4-D and b) the control group was maintained on proliferation culture medium, which contains 2,4-D. After 21 days of culture in the dark, both groups were transferred to maturation culture medium under light. Our results showed that calli grown in PGR-free culture medium yielded more somatic embryos and exhibited a higher accumulation of protein and starch reserves. A proteomic analysis showed a decrease in the abundance of abscisic acid (ABA)-induced proteins in the control group. The levels of residual 2,4-D and endogenous 1-aminocyclopropane-1-carboxylic acid (ACC), an ethylene precursor, were higher in the control group than in the PGR-free group. Conversely, the level of ABA was higher in the PGR-free group than in the control group. A disruption in the ABA and ethylene levels might be responsible for the observed delay in the accumulation of storage reserves in the embryogenic calli of the control group, which might have affected the development of somatic embryos. Our results also showed that the efficient development of sugarcane somatic embryos appears to be preceded by an efficient accumulation of storage reserves in calli, which is related to hormone homeostasis.

Project description:We report the role of sRNAs populations during the induction of callus tissues from VS-535 maize embryos displaying contrasting in vitro embryogenic potential; characterized through Next-generation sequencing (NGS). We conclude that the Embryogenic Response during Maize Somatic Embryogenesis induction is closely related to sRNAs regulation and depends on the developmental stage of the explant.

Project description:We report the role of sRNAs populations during the induction of callus tissues from VS-535 maize embryos displaying contrasting in vitro embryogenic potential; characterized through Next-generation sequencing (NGS). We conclude that the Embryogenic Response during Maize Somatic Embryogenesis induction is closely related to sRNAs regulation and depends on the developmental stage of the explant.

Project description:Purpose: Maize somatic embryogenesis is usually required to achieve genetic transformation and represents an important alternative in plant development. Although many embryogenesis-related genes have been studied in this model, the molecular mechanisms underlying cell dedifferentiation and further plant regeneration are not completely understood. Methods: Immature embryos smRNA profiles of 15-day-after-pollination (IE) and Embryogenic Callus from one (C1), four (C4), and ten months (C10) were generated by deep sequencing, using Illumina GAIIx. The sequence reads that passed quality filters were analyzed with two methods: Bowtie 1.1.2 and ShortStack 3.4. qRT–PCR validation for selected miRNAs was performed using SYBR Green assays. Results: We used high throughput sequencing to explore the sRNA populations during maize embryogenic callus induction and established subcultures from the Mexican cultivar VS-535, Tuxpeño landrace. We detected readjustments in 24 nt and 21-22 nt sRNA populations during the embryogenic callus establishment and maintenance. miRNAs related to stress response substantially increased upon callus proliferation establishment, correlating with a reduction in some of their target levels. On the other hand, while 24 nt-long hc-siRNAs derived from transposable retroelements transiently decreased in abundance during the embryogenic callus establishment, a population of 22 nt- hc-siRNAs increased. This was accompanied by reduction in transposon expression in the established callus subcultures. Conclusions: Stress- and development-related miRNAs are highly expressed upon maize EC callus induction and during maintenance subcultures, while miRNAs involved in hormone response only transiently increase during induction. The establishment of proliferative maize embryogenic callus is accompanied by important readjustments in the length of hc-siRNAs mapping to LTR retrotransposons, and their expression regulation.

Project description:Transcriptome profiles of wild-type (WT) and sr34a-1 mutant seeds germinated for 44 hours in continuous light and transferred to a control or ABA-containing medium during 2 hours.

Project description:Individual nucleotide crosslinking and immunoprecipitation (iCLIP2) of SR34a-GFP or control GFP from seeds germinated for 44 hours in continuous light and transferred to a control or ABA-containing medium during 2 hours.

Project description:We report the gene expression level of Aspergillus fumigatus CEA17_ΔakuBKU80 strain in dormant conidia, in swollen conidia (after 4h of culture in Glucose 3%, Yeast Exrtract 1% liquid medium) and in germinated conidia (after 8h of culture in Glucose 3%, Yeast Extract 1% liquid medium after construction of an RNAseq library.