Publications by authors named "Sheila Vitória Resende"

2 Publications

  • Page 1 of 1

Transcriptome Analysis of (Cactaceae) Reveals Metabolic Changes During Shoot Organogenesis Induction.

Front Plant Sci 2021 20;12:697556. Epub 2021 Aug 20.

Plant Biology Department/Laboratory of Plant Tissue Culture II-BIOAGRO, Federal University of Viçosa (UFV), Viçosa, Brazil.

is an endangered cactus highly valued for its ornamental properties. shoot production of this species provides a sustainable alternative to overharvesting from the wild; however, its propagation could be improved if the genetic regulation underlying its developmental processes were known. The present study generated transcriptome data, describing shoot organogenesis induction in . Total RNA was extracted from explants before (control) and after shoot organogenesis induction (treated). A total of 14,478 unigenes (average length, 520 bases) were obtained using Illumina HiSeq 3000 (Illumina Inc., San Diego, CA, USA) sequencing and transcriptome assembly. Filtering for differential expression yielded 2,058 unigenes. Pairwise comparison of treated vs. control genes revealed that 1,241 (60.3%) unigenes exhibited no significant change, 226 (11%) were downregulated, and 591 (28.7%) were upregulated. Based on database analysis, more transcription factor families and unigenes appeared to be upregulated in the treated samples than in controls. Expression of () and () genes, both of which were upregulated in treated samples, was further validated by real-time quantitative PCR (RT-qPCR). Differences in gene expression patterns between control and treated samples indicate substantial changes in the primary and secondary metabolism of after the induction of shoot organogenesis. These results help to clarify the molecular genetics and functional genomic aspects underlying propagation in the Cactaceae family.
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http://dx.doi.org/10.3389/fpls.2021.697556DOI Listing
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8417902PMC
August 2021

Anatomy, Flow Cytometry, and X-Ray Tomography Reveal Tissue Organization and Ploidy Distribution in Long-Term Cultures of Species.

Front Plant Sci 2020 31;11:1314. Epub 2020 Aug 31.

Laboratory of Plant Tissue Culture II-BIOAGRO, Plant Biology Department, Federal University of Viçosa (UFV), Viçosa, Brazil.

Cacti have a highly specialized stem that enables survival during extended dry periods. Despite the ornamental value of cacti and the fact that stems represent the main source of explants in tissue culture, there are no studies on their morpho-anatomical and cytological characteristics in . The present study seeks to address the occurrence of cells with mixed ploidy level in cacti tissues. Specifically, we aim to understand how stem tissue is organized, how mixoploidy is distributed when present, and whether detected patterns of ploidy change after long periods of culture. To analyze tissue organization, and plants that had been germinated and cultivated were analyzed for stem structure using toluidine blue, Xylidine Ponceau, Periodic Acid Schiff, ruthenium red, and acid floroglucin. To investigate patterns of ploidy, apical, medial, and basal zones of the stem, as well as, periphery, cortex, and stele (vascular tissue and pith) regions of the stem and root apexes from four- and ten-year old cultured were analyzed by flow cytometry. X-ray micro-computed tomography (XRµCT) was performed with fragments of stems from both species. The scarcity of support elements (, sclereids and fibers) indicates that epidermis, hypodermis, and wide-band tracheids present in cortical vascular bundles and stele, as well as water stored in aquifer parenchyma cells along the cortex, provide mechanical support to the stem. Parenchyma cells increase in volume with a four-fold increase in ploidy. and exhibit the same pattern of cell ploidy irrespective of topophysical region or age, but there is a marked difference in ploidy between the stem periphery (epidermis and hypodermis), cortex, stele, and roots. Mixoploidy in is not related to the age of the culture, but is a developmental trait, whereby endocycles promote cell differentiation to accumulate valuable water.
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http://dx.doi.org/10.3389/fpls.2020.01314DOI Listing
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7488924PMC
August 2020
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