Your search keyword '"Marcelo Menossi"' showing total 7 results

1. Reduction of ethylene biosynthesis in sugarcane induces growth and investment in the non-enzymatic antioxidant apparatus

Author

Daniel Neris, Lucia Mattiello, Gustavo Zuñiga, Eduardo Purgatto, and Marcelo Menossi

Subjects

Sucrose, Gene Expression Regulation, Plant, ANTIOXIDANTES, Plant Science, General Medicine, Ethylenes, Agronomy and Crop Science, Antioxidants, Saccharum, Transcription Factors

Abstract

Lower ethylene production in sugarcane results in plants with higher stature, expression of growth-promoting genes, higher photosynthetic rate, and increased antioxidant compounds. The hormone ethylene is involved in critical processes in sugarcane, such as the growth and accumulation of sucrose. The lack of mutants for ethylene biosynthesis or signaling genes makes it difficult to understand the role of this phytohormone throughout sugarcane development. This study aimed to evaluate the physiology and development of sugarcane plants with low ethylene production. To achieve this goal, we used RNA interference to silence three genes, ScACS1, ScACS2, and ScACS3, encoding 1-aminocyclopropane-1-carboxylic acid synthases (ACS), responsible for a limiting step of the ethylene biosynthesis pathway. Sugarcane plants with reduced ethylene levels presented increased growth, faster germination of lateral gems, and activation of non-enzymatic antioxidant mechanisms. We observed an augmentation in the expression of ScACO5, which encodes the final enzyme regulating ethylene biosynthesis, and ScERF1, encoding a transcription factor, linked to the ethylene response. The increase in plant height was correlated with higher expression of ScPIF3, ScPIF4, and ScPIF5, which encode for transcription factors related to growth induction. Interestingly, there was also an increase in the expression of the ScGAI gene, which encodes a DELLA protein, a growth repressor. The final content of sucrose in the stems was not affected by the low levels of ethylene, although the rate of CO

Published

2022

2. Molecular characterization of ScTFIIAγ, encoding the putative TFIIA small subunit from sugarcane

Author

Pedro L. R. da Cruz, Maria Graziela Krug-Baldacin, Rafael Garcia Tavares, Marcelo Menossi, and Agustina Gentile

Subjects

Molecular Sequence Data, RNA polymerase II, Plant Science, Transcription (biology), medicine, Amino Acid Sequence, Cloning, Molecular, Gene, Transcription factor, Phylogeny, Plant Proteins, Cell Nucleus, biology, General transcription factor, RNA, Sequence Analysis, DNA, General Medicine, Molecular biology, Saccharum, Cell nucleus, medicine.anatomical_structure, RNA, Plant, Transcription Factor TFIIA, biology.protein, Sequence Alignment, Agronomy and Crop Science, Transcription factor II A

Abstract

Transcription mediated by RNA polymerase II depends on a set of different transcription factors to form the pre-initiation complex. TFIIA is involved in the construction of this complex and increases the affinity of TBP for the DNA union region in vitro. In this study, we characterized the ScTFIIAgamma gene, which encodes a homolog of the smaller subunit (gamma) of transcription factor TFIIA in sugarcane. RNA blot analysis showed that ScTFIIAgamma transcripts accumulate in all tissues evaluated, with higher levels in leaf roll and flowers. In situ hybridization showed that ScTFIIAgamma was expressed in different cells of the reproductive meristem. In sugarcane plantlets, methyl jasmonate and absicic acid treatments as well as phosphate starvation had no influence on ScTFIIAgamma transcript accumulation. The subcelullar localization assay demonstrates that ScTFIIAgamma protein is directed to the cell nucleus. The phylogenetic analysis, the expression in several tissues and under different treatments and the nuclear localization are in line with the putative role of ScTFIIAgamma as a subunit of basal transcription factor.

Published

2010

3. Characterization of a sugarcane (Saccharum spp.) gene homolog to the brassinosteroid insensitive1-associated receptor kinase 1 that is associated to sugar content

Author

Juliana de Maria Felix, Marcelo Menossi, Renato Vicentini, and Marcelo Carnier Dornelas

Subjects

Leucine zipper, Cell signaling, Sucrose, Population, Molecular Sequence Data, Plant Science, Biology, Protein Serine-Threonine Kinases, Genes, Plant, chemistry.chemical_compound, Gene Expression Regulation, Plant, Brassinosteroid, Amino Acid Sequence, RNA, Messenger, education, Sugar, Phylogeny, Oligonucleotide Array Sequence Analysis, Plant Proteins, education.field_of_study, Kinase, Gene Expression Profiling, Cell Membrane, General Medicine, Plants, Genetically Modified, Saccharum, Plant Leaves, chemistry, Biochemistry, RNA, Plant, Signal transduction, Agronomy and Crop Science

Abstract

The present article reports on the characterization of ScBAK1, a leucine-rich repeat receptor-like kinase from sugarcane (Saccharum spp.), expressed predominantly in bundle-sheath cells of the mature leaf and potentially involved in cellular signaling cascades mediated by high levels of sugar in this organ. In this report, it was shown that the ScBAK1 sequence was similar to the brassinosteroid insensitive1-associated receptor kinase1 (BAK1). The putative cytoplasmatic domain of ScBAK1 contains all the amino acids characteristic of protein kinases, and the extracellular domain contains five leucine-rich repeats and a putative leucine zipper. Transcripts of ScBAK1 were almost undetectable in sugarcane roots or in any other sink tissue, but accumulated abundantly in the mature leaves. The ScBAK1 expression was higher in the higher sugar content individuals from a population segregating for sugar content throughout the growing season. In situ hybridization in sugarcane leaves showed that the ScBAK1 mRNA accumulated at much higher levels in bundle-sheath cells than in mesophyll cells. In addition, using biolistic bombardment of onion epidermal cells, it was shown that ScBAK1-GFP fusions were localized in the plasma membrane as predicted for a receptor kinase. All together, the present data indicate that ScBAK1 might be a receptor involved in the regulation of specific processes in bundle-sheath cells and in sucrose synthesis in mature sugarcane leaves.

Published

2008

4. Characterization of ScMat1, a putative TFIIH subunit from sugarcane

Author

Agustina Gentile, Marcelo Menossi, Renata F. Ditt, Márcio José da Silva, Marcelo Carnier Dornelas, and Fabio O. Dias

Subjects

Two-hybrid screening, Molecular Sequence Data, Plant Science, Flowers, Biology, Genes, Plant, Cyclin-dependent kinase, Gene Expression Regulation, Plant, Stress, Physiological, Complementary DNA, Two-Hybrid System Techniques, Amino Acid Sequence, Kinase activity, Cloning, Molecular, Protein kinase A, Gene Library, Plant Proteins, General transcription factor, General Medicine, Molecular biology, Cell biology, Saccharum, Plant Leaves, RNA, Plant, Transcription factor II H, biology.protein, Cyclin-dependent kinase 7, Agronomy and Crop Science, Sequence Alignment, Transcription Factor TFIIH

Abstract

The general transcription factor TFIIH is a multiprotein complex with different enzymatic activities such as helicase, protein kinase and DNA repair. MAT1 (menage a trois 1) is one of the TFIIH subunits that has kinase activity and it is the third subunit of the cyclin-dependent kinase (CDK)-activating kinase (CAK), CDK7- cyclin H. The main objective of this work was to characterize ScMAT1, a sugarcane gene encoding a MAT1 homolog. Northern blots and in situ hybridization results showed that ScMAT1 was expressed in sugarcane mature leaf, leaf roll and inflorescence, and it was not differentially expressed in any of the other tissues analyzed such us bud and roots. In addition, ScMAT1 was not differentially expressed during different stress conditions and treatment with hormones. In situ hybridization analyses also showed that ScMAT1 was expressed in different cell types during leaf development. In order to identify proteins that interact with ScMAT1, a yeast two hybrid assay with ScMAT1 as bait was used to screen a sugarcane leaf cDNA library. The screening of yeast two hybrids yielded 14 positive clones. One of them is a cytochrome p450 family protein involved in oxidative degradation of toxic compounds. Other clones isolated are also related to plant responses to stress. To determine the subcellular localization of ScMAT1, a ScMAT1-GFP fusion was assayed in onion epidermal cell and the fluorescence was localized to the nucleus, in agreement with the putative role of ScMAT1 as a basal transcription factor.

Published

2008

5. Characterization of ScMat1 , a putative TFIIH subunit from sugarcane.

Author

Agustina Gentile, Renata Ditt, Fabio Dias, Marcio Da Silva, Marcelo Dornelas, and Marcelo Menossi

Subjects

SUGARCANE, ENERGY crops, TRANSCRIPTION factors, PROTEINS

Abstract

Abstract  The general transcription factor TFIIH is a multiprotein complex with different enzymatic activities such as helicase, protein kinase and DNA repair. MAT1 (ménage à trois 1) is one of the TFIIH subunits that has kinase activity and it is the third subunit of the cyclin-dependent kinase (CDK)-activating kinase (CAK), CDK7- cyclin H. The main objective of this work was to characterize ScMAT1, a sugarcane gene encoding a MAT1 homolog. Northern blots and in situ hybridization results showed that ScMAT1 was expressed in sugarcane mature leaf, leaf roll and inflorescence, and it was not differentially expressed in any of the other tissues analyzed such us bud and roots. In addition, ScMAT1 was not differentially expressed during different stress conditions and treatment with hormones. In situ hybridization analyses also showed that ScMAT1 was expressed in different cell types during leaf development. In order to identify proteins that interact with ScMAT1, a yeast two hybrid assay with ScMAT1 as bait was used to screen a sugarcane leaf cDNA library. The screening of yeast two hybrids yielded 14 positive clones. One of them is a cytochrome p450 family protein involved in oxidative degradation of toxic compounds. Other clones isolated are also related to plant responses to stress. To determine the subcellular localization of ScMAT1, a ScMAT1-GFP fusion was assayed in onion epidermal cell and the fluorescence was localized to the nucleus, in agreement with the putative role of ScMAT1 as a basal transcription factor. [ABSTRACT FROM AUTHOR]

Published

2009

6. Characterization of a sugarcane ( Saccharum spp.) gene homolog to the brassinosteroid insensitive1-associated receptor kinase 1 that is associated to sugar content.

Author

Renato Vicentini, Juliana de Maria Felix, Marcelo Dornelas, and Marcelo Menossi

Subjects

TRANSCRIPTION factors, IN situ hybridization, PROTEIN kinases, CELL membranes

Abstract

Abstract  The present article reports on the characterization of ScBAK1, a leucine-rich repeat receptor-like kinase from sugarcane (Saccharum spp.), expressed predominantly in bundle-sheath cells of the mature leaf and potentially involved in cellular signaling cascades mediated by high levels of sugar in this organ. In this report, it was shown that the ScBAK1 sequence was similar to the brassinosteroid insensitive1-associated receptor kinase1 (BAK1). The putative cytoplasmatic domain of ScBAK1 contains all the amino acids characteristic of protein kinases, and the extracellular domain contains five leucine-rich repeats and a putative leucine zipper. Transcripts of ScBAK1 were almost undetectable in sugarcane roots or in any other sink tissue, but accumulated abundantly in the mature leaves. The ScBAK1 expression was higher in the higher sugar content individuals from a population segregating for sugar content throughout the growing season. In situ hybridization in sugarcane leaves showed that the ScBAK1 mRNA accumulated at much higher levels in bundle-sheath cells than in mesophyll cells. In addition, using biolistic bombardment of onion epidermal cells, it was shown that ScBAK1-GFP fusions were localized in the plasma membrane as predicted for a receptor kinase. All together, the present data indicate that ScBAK1 might be a receptor involved in the regulation of specific processes in bundle-sheath cells and in sucrose synthesis in mature sugarcane leaves. [ABSTRACT FROM AUTHOR]

Published

2009

7. Identification of genes responsive to the application of ethanol on sugarcane leaves.

Author

Sandra Camargo, Geraldo Cançado, Eugênio Ulian, and Marcelo Menossi

Subjects

ALCOHOL, SUGARCANE, GENE expression in plants, PLANT genetic transformation

Abstract

Abstract  The control of gene expression in precise time and space is a desirable attribute of chemically inducible systems. Ethanol is a chemical inducer with favourable features, such as being inexpensive and easy to apply. The aim of this study was to identify ethanol-responsive genes in sugarcane. The cDNA macroarray technique was adopted to identify transcript changes in sugarcane leaves (Saccharum spp. cv SP80-3280) exposed to ethanol. The expression profiles of sugarcane genes were analysed using nylon filters containing 3,575 cDNA clones from the leaf roll library of the SUCEST project. Seventy expressed sequence tags (ESTs) presented altered expression patterns, including ESTs corresponding to genes related to transcriptional and translational processes, abiotic stress and others. Several genes of unknown function were also identified. Among the 48 ESTs up-regulated by ethanol, an abiotic stress-responsive protein and an unknown function gene presented rapid induction by ethanol. The macroarray data of selected ethanol-responsive EST were confirmed by RNA-blot hybridisation. The expression profile of the 48 up-regulated genes was compared in two other cultivars: SP89-1115 and SP90-3414. Surprisingly, no gene showed a similar expression profile in the three cultivars. This result suggests that sugarcane plants have a high diversity in their responses to ethanol. [ABSTRACT FROM AUTHOR]

Published

2007