Your search keyword '"Menossi M"' showing total 123 results

1. Bio-nanocomposites films based on unmodified and modified thermoplastic starch reinforced with chemically modified nanoclays

Author

Guarás, M. P., Menossi, M., Nicolini, A. Torres, Alvarez, V. A., and Ludueña, L. N.

Published

2023

2. Gene expression profiling in maize roots under aluminum stress

Author

Cançado, G. M. A., Nogueira, F. T. S., Camargo, S. R., Drummond, R. D., Jorge, R. A., and Menossi, M.

Published

2008

3. A novel system for large-scale gene expression analysis: bacterial colonies array

Author

Barsalobres-Cavallari, C., De Rosa Júnior, V., Nogueira, F., Ferro, J., Di Mauro, S., Menossi, M., Ulian, E., and Silva-Filho, M.

Published

2006

4. Sugarcane

Author

Hoarau, J.Y., primary, Souza, G., additional, D’Hont, A., additional, Menossi, M., additional, Rossini Pinto, L., additional, Pereira de Souza, A., additional, Grivet, L., additional, Martins Menck, C.F., additional, Cesar Lilian, E., additional, and Vincentz, M., additional

Published

2013

5. Identification of genes preferentially expressed in the pathogenic yeast phase of Paracoccidioides brasiliensis, using suppression subtraction hybridization and differential macroarray analysis

Author

Marques, E.R., Ferreira, M. E. S., Drummond, R. D., Felix, J. M., Menossi, M., Savoldi, M., Travassos, L. R., Puccia, R., Batista, W. L., Carvalho, K. C., Goldman, M. H. S., and Goldman, G. H.

Published

2004

6. Analysis of regulatory elements of the promoter and the 3′ untranslated region of the maize Hrgp gene coding for a cell wall protein

Author

Menossi, M., Rabaneda, F., Puigdomènech, P., and Martínez-Izquierdo, J. A.

Published

2003

7. The effect of the glucono-δ-lactone/caseinate ratio on sodium caseinate gelation

Author

Braga, A.L.M., Menossi, M., and Cunha, R.L.

Published

2006

8. Using macroarrays containing sugarcane ESTs to identify aluminium-induced genes in maize

Author

Felix, J., Duarte, R. D., Jorge, R. A., Arruda, P., Menossi, M., Horst, W. J., editor, Schenk, M. K., editor, Bürkert, A., editor, Claassen, N., editor, Flessa, H., editor, Frommer, W. B., editor, Goldbach, H., editor, Olfs, H. -W., editor, Römheld, V., editor, Sattelmacher, B., editor, Schmidhalter, U., editor, Schubert, S., editor, v. Wirén, N., editor, and Wittenmayer, L., editor

Published

2001

9. ISER: selection of differentially expressed genes from DNA array data by non-linear data transformations and local fitting

Author

Drummond, R. D., Pinheiro, A., Rocha, C. S., and Menossi, M.

Published

2005

10. Crystal Structure of UDP-glucose pyrophosphorylase from Sugarcane

Author

Cotrim, C.A., primary, Soares, J.S.M., additional, Kobe, B., additional, and Menossi, M., additional

Published

2018

11. Characterization of a protein-protein interaction network of the CBL-interacting protein kinase 8 from sugarcane

Author

Farani, T.F., primary, Gentile, A., additional, Tavares, R.G., additional, Ribeiro, C., additional, and Menossi, M., additional

Published

2015

12. Some statistical properties of gene expression clustering for array data

Author

Abreu, G C G, Pinheiro, A, Drummond, R D, Camargo, S R, and Menossi, M

Subjects

genomics, bootstrap resampling, array data

Abstract

DNA arrays have been a rich source of data for the study of genomic expression of a wide variety of biological systems. Gene clustering is one of the paradigms quite used to assess the significance of a gene (or group of genes). However, most of the gene clustering techniques are applied to cDNA array data without a corresponding statistical error measure. We propose an easy-to-implement and simple-to-use technique that uses bootstrap re-sampling to evaluate the statistical error of the nodes provided by SOM-based clustering. Comparisons between SOM and parametric clustering are presented for simulated as well as for two real data sets. We also implement a bootstrap-based pre-processing procedure for SOM, that improves the false discovery ratio of differentially expressed genes. Code in Matlab is freely available, as well as some supplementary material, at the following address: https://ipe.cbmeg.unicamp.br/pub/abreu.gcg. Code implementation in R is in progress. Udgivelsesdato: February DNA arrays have been a rich source of data for the study of genomic expression of a wide variety of biological systems. Gene clustering is one of the paradigms quite used to assess the significance of a gene (or group of genes). However, most of the gene clustering techniques are applied to cDNA array data without a corresponding statistical error measure. We propose an easy-to-implement and simple-to-use technique that uses bootstrap re-sampling to evaluate the statistical error of the nodes provided by SOM-based clustering. Comparisons between SOM and parametric clustering are presented for simulated as well as for two real data sets. We also implement a bootstrap-based pre-processing procedure for SOM, that improves the false discovery ratio of differentially expressed genes. Code in Matlab is freely available, as well as some supplementary material, at the following address: https://ipe.cbmeg.unicamp.br/pub/abreu.gcg. Code implementation in R is in progress.

Published

2010

13. Sugarcane Functional Genomics: Gene Discovery for Agronomic Trait Development

Author

Menossi, M., Silva-Filho, M. C., Vincentz, M., Van-Sluys, M.-A., and Souza, G. M.

Subjects

Article Subject, food and beverages

Abstract

Sugarcane is a highly productive crop used for centuries as the main source of sugar and recently to produce ethanol, a renewable bio-fuel energy source. There is increased interest in this crop due to the impending need to decrease fossil fuel usage. Sugarcane has a highly polyploid genome. Expressed sequence tag (EST) sequencing has significantly contributed to gene discovery and expression studies used to associate function with sugarcane genes. A significant amount of data exists on regulatory events controlling responses to herbivory, drought, and phosphate deficiency, which cause important constraints on yield and on endophytic bacteria, which are highly beneficial. The means to reduce drought, phosphate deficiency, and herbivory by the sugarcane borer have a negative impact on the environment. Improved tolerance for these constraints is being sought. Sugarcane's ability to accumulate sucrose up to 16% of its culm dry weight is a challenge for genetic manipulation. Genome-based technology such as cDNA microarray data indicates genes associated with sugar content that may be used to develop new varieties improved for sucrose content or for traits that restrict the expansion of the cultivated land. The genes can also be used as molecular markers of agronomic traits in traditional breeding programs.

Published

2008

14. A transcript finishing initiative for closing gaps in the human transcriptome

Author

Sogayar, M. C., Camargo, A. A., Bettoni, F., Carraro, D. M., Pires, L. C., Parmigiani, M. B., Ferreira, E. N., Moreira, E. S., Latorre, MRDO, Simpson, AJG, Cruz, L. O., Degaki, T. L., Festa, F., Massirer, K. B., Camargo, F., Camargo, L. P., Cunha, MAV, De Souza, S. J., Faria, M., Giuliatti, S., Kopp, Oliviera, PSL, Paiva, P. B., Pereira, A. A., Pinheiro, D. G., Puga, R. D., Souza, JES, Albuquerque, D. M., Andrade, LEC, Baia, G. S., Briones, MRS, Cavaleiro-Luna, AMS, Cerutti, J. M., Costa, F. F., Constanzi-Strauss, E., Espreafico, E. M., Ferrasi, A. C., Ferro, E. S., Fortes, MAHZ, Furchi, JRF, Gianella-Neto, D., Goldman, G. H., Goldman, MHS, Gruber, A., Guimaraes, G. S., Hackel, C., Henrique-Silva, F., Kimura, E. T., Leoni, S. G., Macedo, C., Malnic, B., Manzini, C. V., Marie, SKN, Martinez-Rossi, N. M., Menossi, M., Miracca, E. C., Nagai, M. A., Nobrega, F. G., Nobrega, M. P., Oba-Shinjo, S. M., Oliviera, M. K., Orabona, G. M., Otsuke, A. Y., Paco-Larson, M. L., Paixao, BMC, Pandolfi, JRC, Pardini, MIMC, Passos-Bueno, M. R., Passos, GAS, Pesquero, J. B., Pessoa, J. G., Rahal, Paula [UNESP], Rainho, C. A., Reis, C. P., Ricca, T. I., Rodriguez, V, Rogatto, Silvia Regina [UNESP], Romano, C. M., Romeiro, J. G., Rossi, A., Sa, R. G., Sales, M. M., SantAnna, S. C., Santarosa, P. L., Segato, F., Silva, W. A., Silva, IDCG, Silva, N. P., Soares-Costa, A., Sonati, M. F., Strauss, B. E., Tajara, E. H., Valentini, Sandro Roberto [UNESP], Villanova, F. E., Ward, L. S., Zanette, D. L., Universidade de São Paulo (USP), Ludwig Inst Canc Res, Univ Ribeirao Preto, Inst Ludwig, Universidade Federal de São Paulo (UNIFESP), Universidade Estadual de Campinas (UNICAMP), Universidade Estadual Paulista (Unesp), Universidade Federal de São Carlos (UFSCar), and Univ Vale Paraiba

Subjects

Transcription, Genetic, Software Validation, Molecular Sequence Data, Biology, Cell Line, Open Reading Frames, Exon, Software Design, Cell Line, Tumor, Complementary DNA, Consensus Sequence, Databases, Genetic, Methods, Genetics, Consensus sequence, Humans, Gene, Genetics (clinical), Expressed Sequence Tags, Expressed sequence tag, Genome, Human, Alternative splicing, Computational Biology, DNA, Neoplasm, U937 Cells, HISTOLOGIA, Alternative Splicing, Open reading frame, Genes, Human genome, Software, HeLa Cells

Abstract

Submitted by Guilherme Lemeszenski (guilherme@nead.unesp.br) on 2014-02-26T17:19:33Z No. of bitstreams: 1 WOS000222434200023.pdf: 392582 bytes, checksum: eb50adacff00ab5cc37867f0de853492 (MD5) Made available in DSpace on 2014-02-26T17:19:33Z (GMT). No. of bitstreams: 1 WOS000222434200023.pdf: 392582 bytes, checksum: eb50adacff00ab5cc37867f0de853492 (MD5) Previous issue date: 2004-07-01 Submitted by Vitor Silverio Rodrigues (vitorsrodrigues@reitoria.unesp.br) on 2014-05-20T13:50:12Z No. of bitstreams: 1 WOS000222434200023.pdf: 392582 bytes, checksum: eb50adacff00ab5cc37867f0de853492 (MD5) Made available in DSpace on 2014-05-20T13:50:12Z (GMT). No. of bitstreams: 1 WOS000222434200023.pdf: 392582 bytes, checksum: eb50adacff00ab5cc37867f0de853492 (MD5) Previous issue date: 2004-07-01 We report the results of a transcript finishing initiative, undertaken for the purpose of identifying and characterizing novel human transcripts, in which RT-PCR was used to bridge gaps between paired EST Clusters, mapped against the genomic sequence. Each pair of EST Clusters selected for experimental validation was designated a transcript finishing unit (TFU). A total of 489 TFUs were selected for validation, and an overall efficiency of 43.1% was achieved. We generated a total of 59,975 bp of transcribed sequences organized into 432 exons, contributing to the definition of the structure of 211 human transcripts. The structure of several transcripts reported here was confirmed during the course of this project, through the generation of their corresponding full-length cDNA sequences. Nevertheless, for 21% of the validated TFUs, a full-length cDNA sequence is not yet available in public databases, and the structure of 69.2% of these TFUs was not correctly predicted by computer programs. The TF strategy provides a significant contribution to the definition of the complete catalog of human genes and transcripts, because it appears to be particularly useful for identification of low abundance transcripts expressed in a restricted Set of tissues as well as for the delineation of gene boundaries and alternatively spliced isoforms. Univ São Paulo, Inst Quim, BR-05513970 São Paulo, Brazil Ludwig Inst Canc Res, BR-01509010 São Paulo, Brazil Univ São Paulo, Dept Epidemiol, Sch Publ Hlth, BR-01246904 São Paulo, SP, Brazil Univ Ribeirao Preto, Dept Quim Informat Bioinformat, BR-14096380 Ribeirao Preto, Brazil Univ São Paulo, Fac Med Ribeirao Preto, Centro Terapia Celular, Hemocentro, BR-14051140 Ribeirao Preto, SP, Brazil Univ São Paulo, Fac Med Ribeirao Preto, Dept Clin Med, BR-14051140 Ribeirao Preto, SP, Brazil Inst Ludwig, Lab Biol Computacional, BR-01509010 São Paulo, SP, Brazil Univ São Paulo, Lab Genet Cardiol Mol, Inst Coracao, BR-05403000 São Paulo, SP, Brazil Univ Fed São Paulo, Bioinform Lab, Hlth Informatics Dept, BR-04039032 São Paulo, Brazil Univ Estad Campinas, Dept Clin Med, Fac Ciências Med, BR-13083970 Campinas, SP, Brazil Univ Fed São Paulo, Rheumatol Div, BR-04113001 São Paulo, Brazil Univ São Paulo, Dept Histol Embriol, Inst Ciências Biomed, BR-05508900 São Paulo, Brazil Univ Fed São Paulo, Dept Microbiol Immunol Parasitol, BR-04023062 São Paulo, Brazil Univ São Paulo, Lab Cellular Mol Endocrinol, Sch Med, BR-01246903 São Paulo, Brazil Univ Fed São Paulo, Dept Med, Disciplina Endocrinol, Lab Endocrinol Mol, BR-04039002 São Paulo, Brazil Univ São Paulo, Inst Ciências Biomed, Lab Transferencia Genica, BR-05508900 São Paulo, Brazil Univ São Paulo, Fac Med Ribeirao Preto, Dept Biol Celular Mol Bioagentes Patogenicas, BR-14049900 Ribeirao Preto, SP, Brazil Univ Estadual Paulista, Lab Biol Mol, Hemocentro, Fac Med, BR-18618970 Botucatu, SP, Brazil Univ Fed Sao Carlos, Dept Genet Evol, BR-13565905 Sao Carlos, SP, Brazil Univ São Paulo, Fac Ciências Farmaceuticas Ribeirao Preto, BR-14040903 Ribeirao Preto, SP, Brazil Univ São Paulo, Fac Filosofia Ciências Letras Ribeirao Preto, Ribeirao Preto, SP, Brazil Univ São Paulo, Dept Patol, Fac Med Vet Zootecnia, BR-05508000 São Paulo, Brazil Univ Estadual Campinas, Dept Genet Med, Fac Ciências Med, BR-13081970 Campinas, SP, Brazil Univ São Paulo, Fac Med Ribeirao Preto, Dept Genet, BR-14040900 Ribeirao Preto, SP, Brazil Univ São Paulo, Dept Bioquim, Inst Quim, BR-05599970 São Paulo, Brazil Univ São Paulo, Dept Neurol, Fac Med, BR-01246903 São Paulo, Brazil Univ Estadual Campinas, Lab Genoma Funcional, Centro Biol Mol Engenharia Genet, BR-13083970 Campinas, SP, Brazil Univ Estadual Campinas, Dept Genet Evol, Inst Biol, Campinas, SP, Brazil Univ São Paulo, Dept Radiol, Disciplina Oncol, Fac Med, BR-01246903 São Paulo, Brazil Univ Vale Paraiba, Inst Pesquisa Desenvolvimento, BR-12244000 Sao Jose Dos Campos, SP, Brazil Univ São Paulo, Inst Biociencias, Centro Estudios Genoma Humano, Dept Biol, BR-055508900 São Paulo, Brazil Univ Fed São Paulo, Lab Mol Gynecol, Dept Gynecol, BR-04039001 São Paulo, Brazil São Paulo State Univ, Sch Pharmacol, Dept Biol Sci, BR-14801902 Araraquara, SP, Brazil Univ São Paulo, Discipl Genet, Fac Odontol, BR-14040900 Ribeirao Preto, SP, Brazil Univ Fed São Paulo, Dept Biofisica, BR-04023062 São Paulo, Brazil Univ Estadual Paulista, Dept Biol, Inst Biociencias Letras Ciências Exatas, BR-15054000 Sao Jose do Rio Preto, SP, Brazil Univ Estadual Paulista, Dept Genet, Inst Biociencias, BR-18618000 Botucatu, SP, Brazil Univ São Paulo, Dept Bioquim Imunol, Fac Med Ribeirao Preto, BR-14049900 Ribeirao Preto, SP, Brazil Univ Estadual Campinas, Lab Genet Mol Cancer, Dept Clin Med, Fac Ciências Med, BR-13083970 Campinas, SP, Brazil Univ Estadual Campinas, Dept Patol Clin, Fac Ciências Med, BR-13083970 Campinas, SP, Brazil Univ São Paulo, Setor Vetores Virals, Lab Cardiol Mol, Inst Coracao, BR-15403000 São Paulo, Brazil Univ Estadual Paulista, Lab Biol Mol, Hemocentro, Fac Med, BR-18618970 Botucatu, SP, Brazil São Paulo State Univ, Sch Pharmacol, Dept Biol Sci, BR-14801902 Araraquara, SP, Brazil Univ Estadual Paulista, Dept Biol, Inst Biociencias Letras Ciências Exatas, BR-15054000 Sao Jose do Rio Preto, SP, Brazil Univ Estadual Paulista, Dept Genet, Inst Biociencias, BR-18618000 Botucatu, SP, Brazil

Published

2004

15. Characterization of a barley gene coding for an alfa-amylase inhibitor subunit (CMd protein) and analysis of its promoter in transgenic tobacco plants and in maize kernels by microprojectile bombardment

Author

Grosset, J., Alary, Remi, Gautier, M.F., Menossi, M., Martinez-Izquierdo, J.A., JOUDRIER, Philippe, Unité de biochimie et biologie moléculaire des céréales, and Institut National de la Recherche Agronomique (INRA)

Subjects

[SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

1997

16. Functional analysis of a TGA factor-binding site located in the promoter region controlling salicylic acid-induced NIMIN-1 expression in Arabidopsis

Author

Fonseca, J.P., primary, Menossi, M., additional, Thibaud-Nissen, F., additional, and Town, C.D., additional

Published

2010

17. Molecular basis for porcine parvovirus detection in dead fetuses

Author

Wolf, V.H.G., primary, Menossi, M., additional, Mourão, G.B., additional, and Gatti, M.S.V., additional

Published

2008

18. Regulation of the expression of developmental marrers genes in maize: Proline-rich protein genes

Author

Martinez-Izguirdo, J.A., Menossi, M., Josè-Estanyol, M., Garcia, Nathan, Tagu, Denis, Ruiz-Avila, L., Puigdmench, P., Unité de recherche Biogéochimie des Ecosystèmes Forestiers (BEF), Institut National de la Recherche Agronomique (INRA), T.G. Villa (Editeur), J. Abalde (Editeur), and ProdInra, Migration

Subjects

[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio]

Abstract

28 ref.; International audience

Published

1992

19. Pipeline for macro- and microarray analyses

Author

Vicentini, R., primary and Menossi, M., additional

Published

2007

20. Effect of anion channel antagonists and La on citrate release, Al content and Al resistance in maize roots

Author

JORGE, R, primary and MENOSSI, M, additional

Published

2005

21. Probing the role of calmodulin in Al toxicity in maize

Author

Jorge, R. A., Menossi, M., and Arruda, P.

Published

2001

22. Characterization of a gene encoding an abscisic acid-inducible type-2 lipid transfer protein from rice

Author

Garcia-Garrido, J. M., Menossi, M., Puigdomenech, P., Martinez-Izquierdo, A., J., and Delseny, M.

Published

1998

23. Promoter tissue specific activity and ethylene control of the gene coding for the maize hydroxyproline-rich glycoprotein in maize cells transformed by particle bombardment

Author

Menossi, M., Martinez-Izquierdo, A., J., and Puigdomenech, P.

Published

1997

24. Use of the lacZ reporter gene as an internal control for GUS activity in microprojectile bombarded plant tissue

Author

Hull, G., Garrido, J. M. G., Parcy, F., Menossi, M., Martinez-Izquierdo, A., J., and Gallois, P.

Published

1996

25. Sugarcane genome sequencing and gene discovery: Getting closer to sugar content, fibre and drought traits

Author

Lembke, C. G., Nishiyama, M. Y., Savio Ferreira, Dal-Bianco, M. L., Sato, P. M., Hotta, C. T., Carneiro, M., Loureiro, M., Carrer, H., Endres, L., Hoffmann, H., Sanches, M., Menossi, M., and Souza, G. M.

26. Recent advances in gene expression data clustering: a case study with comparative results

Author

Bezerra, G. B., Cançado, G. M., Menossi, M., Castro, L. N., and Fernando J. Von Zuben

27. Identification of methyl jasmonate-responsive genes in sugarcane using cDNA arrays

Author

Rosa Jr, V. E., Fabio Nogueira, Menossi, M., Ulian, E. C., and Arruda, P.

28. Perspectives on bioenergy and biotechnology in Brazil

Author

Pessoa-Jr, A., Ines Roberto, Menossi, M., Dos Santos, R. R., Ortega Filho, S., and Penna, T. C. V.

29. A transcriptomic analysis of gene expression in the venom gland of the snake Bothrops alternatus (urutu)

Author

Menossi Marcelo, Vidal Ramon O, Del Bem Luiz, Torres Tatiana T, Costa Gustavo GL, Da Silva Márcio J, Cardoso Kiara C, and Hyslop Stephen

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The genus Bothrops is widespread throughout Central and South America and is the principal cause of snakebite in these regions. Transcriptomic and proteomic studies have examined the venom composition of several species in this genus, but many others remain to be studied. In this work, we used a transcriptomic approach to examine the venom gland genes of Bothrops alternatus, a clinically important species found in southeastern and southern Brazil, Uruguay, northern Argentina and eastern Paraguay. Results A cDNA library of 5,350 expressed sequence tags (ESTs) was produced and assembled into 838 contigs and 4512 singletons. BLAST searches of relevant databases showed 30% hits and 70% no-hits, with toxin-related transcripts accounting for 23% and 78% of the total transcripts and hits, respectively. Gene ontology analysis identified non-toxin genes related to general metabolism, transcription and translation, processing and sorting, (polypeptide) degradation, structural functions and cell regulation. The major groups of toxin transcripts identified were metalloproteinases (81%), bradykinin-potentiating peptides/C-type natriuretic peptides (8.8%), phospholipases A2 (5.6%), serine proteinases (1.9%) and C-type lectins (1.5%). Metalloproteinases were almost exclusively type PIII proteins, with few type PII and no type PI proteins. Phospholipases A2 were essentially acidic; no basic PLA2 were detected. Minor toxin transcripts were related to L-amino acid oxidase, cysteine-rich secretory proteins, dipeptidylpeptidase IV, hyaluronidase, three-finger toxins and ohanin. Two non-toxic proteins, thioredoxin and double-specificity phosphatase Dusp6, showed high sequence identity to similar proteins from other snakes. In addition to the above features, single-nucleotide polymorphisms, microsatellites, transposable elements and inverted repeats that could contribute to toxin diversity were observed. Conclusions Bothrops alternatus venom gland contains the major toxin classes described for other Bothrops venoms based on trancriptomic and proteomic studies. The predominance of type PIII metalloproteinases agrees with the well-known hemorrhagic activity of this venom, whereas the lower content of serine proteases and C-type lectins could contribute to less marked coagulopathy following envenoming by this species. The lack of basic PLA2 agrees with the lower myotoxicity of this venom compared to other Bothrops species with these toxins. Together, these results contribute to our understanding of the physiopathology of envenoming by this species.

Published

2010

30. Transcriptional profile of maize roots under acid soil growth

Author

Mattiello Lucia, Kirst Matias, da Silva Felipe R, Jorge Renato A, and Menossi Marcelo

Subjects

Botany, QK1-989

Abstract

Abstract Background Aluminum (Al) toxicity is one of the most important yield-limiting factors of many crops worldwide. The primary symptom of Al toxicity syndrome is the inhibition of root growth leading to poor water and nutrient absorption. Al tolerance has been extensively studied using hydroponic experiments. However, unlike soil conditions, this method does not address all of the components that are necessary for proper root growth and development. In the present study, we grew two maize genotypes with contrasting tolerance to Al in soil containing toxic levels of Al and then compared their transcriptomic responses. Results When grown in acid soil containing toxic levels of Al, the Al-sensitive genotype (S1587-17) showed greater root growth inhibition, more Al accumulation and more callose deposition in root tips than did the tolerant genotype (Cat100-6). Transcriptome profiling showed a higher number of genes differentially expressed in S1587-17 grown in acid soil, probably due to secondary effects of Al toxicity. Genes involved in the biosynthesis of organic acids, which are frequently associated with an Al tolerance response, were not differentially regulated in both genotypes after acid soil exposure. However, genes related to the biosynthesis of auxin, ethylene and lignin were up-regulated in the Al-sensitive genotype, indicating that these pathways might be associated with root growth inhibition. By comparing the two maize lines, we were able to discover genes up-regulated only in the Al-tolerant line that also presented higher absolute levels than those observed in the Al-sensitive line. These genes encoded a lipase hydrolase, a retinol dehydrogenase, a glycine-rich protein, a member of the WRKY transcriptional family and two unknown proteins. Conclusions This work provides the first characterization of the physiological and transcriptional responses of maize roots when grown in acid soil containing toxic levels of Al. The transcriptome profiles highlighted several pathways that are related to Al toxicity and tolerance during growth in acid soil. We found several genes that were not found in previous studies using hydroponic experiments, increasing our understanding of plant responses to acid soil. The use of two germplasms with markedly different Al tolerances allowed the identification of genes that are a valuable tool for assessing the mechanisms of Al tolerance in maize in acid soil.

Published

2010

31. Sugarcane genes associated with sucrose content

Author

Vincentz Michel GA, Vicentini Renato, Nishiyama Milton Y, Costa Maximiller DL, Lembke Carolina G, Del Bem Luiz EV, Waclawovsky Alessandro J, Branco Diana S, Felix Juliana M, Vêncio Ricardo ZN, Rocha Flávia R, Papini-Terzi Flávia S, Ulian Eugênio C, Menossi Marcelo, and Souza Glaucia M

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background - Sucrose content is a highly desirable trait in sugarcane as the worldwide demand for cost-effective biofuels surges. Sugarcane cultivars differ in their capacity to accumulate sucrose and breeding programs routinely perform crosses to identify genotypes able to produce more sucrose. Sucrose content in the mature internodes reach around 20% of the culms dry weight. Genotypes in the populations reflect their genetic program and may display contrasting growth, development, and physiology, all of which affect carbohydrate metabolism. Few studies have profiled gene expression related to sugarcane's sugar content. The identification of signal transduction components and transcription factors that might regulate sugar accumulation is highly desirable if we are to improve this characteristic of sugarcane plants. Results - We have evaluated thirty genotypes that have different Brix (sugar) levels and identified genes differentially expressed in internodes using cDNA microarrays. These genes were compared to existing gene expression data for sugarcane plants subjected to diverse stress and hormone treatments. The comparisons revealed a strong overlap between the drought and sucrose-content datasets and a limited overlap with ABA signaling. Genes associated with sucrose content were extensively validated by qRT-PCR, which highlighted several protein kinases and transcription factors that are likely to be regulators of sucrose accumulation. The data also indicate that aquaporins, as well as lignin biosynthesis and cell wall metabolism genes, are strongly related to sucrose accumulation. Moreover, sucrose-associated genes were shown to be directly responsive to short term sucrose stimuli, confirming their role in sugar-related pathways. Conclusion - Gene expression analysis of sugarcane populations contrasting for sucrose content indicated a possible overlap with drought and cell wall metabolism processes and suggested signaling and transcriptional regulators to be used as molecular markers in breeding programs. Transgenic research is necessary to further clarify the role of the genes and define targets useful for sugarcane improvement programs based on transgenic plants.

Published

2009

32. TISs-ST: a web server to evaluate polymorphic translation initiation sites and their reflections on the secretory targets

Author

Menossi Marcelo and Vicentini Renato

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background The nucleotide sequence flanking the translation initiation codon (start codon context) affects the translational efficiency of eukaryotic mRNAs, and may indicate the presence of an alternative translation initiation site (TIS) to produce proteins with different properties. Multi-targeting may reflect the translational variability of these other protein forms. In this paper we present a web server that performs computations to investigate the usage of alternative translation initiation sites for the synthesis of new protein variants that might have different functions. Results An efficient web-based tool entitled TISs-ST (Translation Initiation Sites and Secretory Targets) evaluates putative translation initiation sites and indicates the prediction of a signal peptide of the protein encoded from this site. The TISs-ST web server is freely available to both academic and commercial users and can be accessed at http://ipe.cbmeg.unicamp.br/pub/TISs-ST. Conclusion The program can be used to evaluate alternative translation initiation site consensus with user-specified sequences, based on their composition or on many position weight matrix models. TISs-ST provides analytical and visualization tools for evaluating the periodic frequency, the consensus pattern and the total information content of a sequence data set. A search option allows for the identification of signal peptides from predicted proteins using the PrediSi software.

Published

2007

33. Signal transduction-related responses to phytohormones and environmental challenges in sugarcane

Author

Hemerly Adriana S, Figueira Antonio VO, Almeida Raul S, Galbiatti João A, Zingaretti Sônia M, Ulian Eugênio C, Rodrigues Fabiana A, Medeiros Ane H, Barsalobres Carla, Vinagre Fabiano, de Rosa Vicente E, Duarte Rodrigo DC, Vicentini Renato, Vêncio Ricardo ZN, Nishiyama Milton Y, Papini-Terzi Flávia S, Rocha Flávia R, Silva-Filho Marcio C, Menossi Marcelo, and Souza Gláucia M

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Sugarcane is an increasingly economically and environmentally important C4 grass, used for the production of sugar and bioethanol, a low-carbon emission fuel. Sugarcane originated from crosses of Saccharum species and is noted for its unique capacity to accumulate high amounts of sucrose in its stems. Environmental stresses limit enormously sugarcane productivity worldwide. To investigate transcriptome changes in response to environmental inputs that alter yield we used cDNA microarrays to profile expression of 1,545 genes in plants submitted to drought, phosphate starvation, herbivory and N2-fixing endophytic bacteria. We also investigated the response to phytohormones (abscisic acid and methyl jasmonate). The arrayed elements correspond mostly to genes involved in signal transduction, hormone biosynthesis, transcription factors, novel genes and genes corresponding to unknown proteins. Results Adopting an outliers searching method 179 genes with strikingly different expression levels were identified as differentially expressed in at least one of the treatments analysed. Self Organizing Maps were used to cluster the expression profiles of 695 genes that showed a highly correlated expression pattern among replicates. The expression data for 22 genes was evaluated for 36 experimental data points by quantitative RT-PCR indicating a validation rate of 80.5% using three biological experimental replicates. The SUCAST Database was created that provides public access to the data described in this work, linked to tissue expression profiling and the SUCAST gene category and sequence analysis. The SUCAST database also includes a categorization of the sugarcane kinome based on a phylogenetic grouping that included 182 undefined kinases. Conclusion An extensive study on the sugarcane transcriptome was performed. Sugarcane genes responsive to phytohormones and to challenges sugarcane commonly deals with in the field were identified. Additionally, the protein kinases were annotated based on a phylogenetic approach. The experimental design and statistical analysis applied proved robust to unravel genes associated with a diverse array of conditions attributing novel functions to previously unknown or undefined genes. The data consolidated in the SUCAST database resource can guide further studies and be useful for the development of improved sugarcane varieties.

Published

2007

34. Fine-Tuning of Arabidopsis thaliana Response to Endophytic Colonization by Gluconacetobacter diazotrophicus PAL5 Revealed by Transcriptomic Analysis.

Author

Soares FS, Rangel de Souza ALS, de Souza SA, de Souza Vespoli L, Pinto VB, Matiello L, da Silva FR, Menossi M, and de Souza Filho GA

Abstract

Gluconacetobacter diazotrophicus is a diazotrophic endophytic bacterium that promotes the growth and development of several plant species. However, the molecular mechanisms activated during plant response to this bacterium remain unclear. Here, we used the RNA-seq approach to understand better the effect of G. diazotrophicus PAL5 on the transcriptome of shoot and root tissues of Arabidopsis thaliana . G. diazotrophicus colonized A. thaliana roots and promoted growth, increasing leaf area and biomass. The transcriptomic analysis revealed several differentially expressed genes (DEGs) between inoculated and non-inoculated plants in the shoot and root tissues. A higher number of DEGs were up-regulated in roots compared to shoots. Genes up-regulated in both shoot and root tissues were associated with nitrogen metabolism, production of glucosinolates and flavonoids, receptor kinases, and transcription factors. In contrast, the main groups of down-regulated genes were associated with pathogenesis-related proteins and heat-shock proteins in both shoot and root tissues. Genes encoding enzymes involved in cell wall biogenesis and modification were down-regulated in shoots and up-regulated in roots. In contrast, genes associated with ROS detoxification were up-regulated in shoots and down-regulated in roots. These results highlight the fine-tuning of the transcriptional regulation of A. thaliana in response to colonization by G. diazotrophicus PAL5.

Published

2024

35. Molecular and Computational Strategies to Increase the Efficiency of CRISPR-Based Techniques.

Author

Mattiello L, Rütgers M, Sua-Rojas MF, Tavares R, Soares JS, Begcy K, and Menossi M

Abstract

The prokaryote-derived Clustered Regularly Interspaced Palindromic Repeats (CRISPR)/Cas mediated gene editing tools have revolutionized our ability to precisely manipulate specific genome sequences in plants and animals. The simplicity, precision, affordability, and robustness of this technology have allowed a myriad of genomes from a diverse group of plant species to be successfully edited. Even though CRISPR/Cas, base editing, and prime editing technologies have been rapidly adopted and implemented in plants, their editing efficiency rate and specificity varies greatly. In this review, we provide a critical overview of the recent advances in CRISPR/Cas9-derived technologies and their implications on enhancing editing efficiency. We highlight the major efforts of engineering Cas9, Cas12a, Cas12b, and Cas12f proteins aiming to improve their efficiencies. We also provide a perspective on the global future of agriculturally based products using DNA-free CRISPR/Cas techniques. The improvement of CRISPR-based technologies efficiency will enable the implementation of genome editing tools in a variety of crop plants, as well as accelerate progress in basic research and molecular breeding., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Mattiello, Rütgers, Sua-Rojas, Tavares, Soares, Begcy and Menossi.)

Published

2022

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

Author

Neris D, Mattiello L, Zuñiga G, Purgatto E, and Menossi M

Subjects

Antioxidants metabolism, Ethylenes metabolism, Gene Expression Regulation, Plant, Sucrose metabolism, Transcription Factors genetics, Transcription Factors metabolism, Saccharum genetics, Saccharum metabolism

Abstract

Key Message: 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 2 assimilation was reduced. This study reports for the first time the impacts of low endogenous production of ethylene in sugarcane and provides helpful insights on the molecular mechanisms behind ethylene responses., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

37. Amino Acid and Carbohydrate Metabolism Are Coordinated to Maintain Energetic Balance during Drought in Sugarcane.

Author

Diniz AL, da Silva DIR, Lembke CG, Costa MDL, Ten-Caten F, Li F, Vilela RD, Menossi M, Ware D, Endres L, and Souza GM

Subjects

Adaptation, Physiological, Computational Biology methods, Gene Expression Profiling, Gene Expression Regulation, Plant, Gene Regulatory Networks, Metabolic Networks and Pathways, Transcriptome, Amino Acids metabolism, Carbohydrate Metabolism, Droughts, Energy Metabolism, Saccharum physiology

Abstract

The ability to expand crop plantations without irrigation is a major goal to increase agriculture sustainability. To achieve this end, we need to understand the mechanisms that govern plant growth responses under drought conditions. In this study, we combined physiological, transcriptomic, and genomic data to provide a comprehensive picture of drought and recovery responses in the leaves and roots of sugarcane. Transcriptomic profiling using oligoarrays and RNA-seq identified 2898 (out of 21,902) and 46,062 (out of 373,869) transcripts as differentially expressed, respectively. Co-expression analysis revealed modules enriched in photosynthesis, small molecule metabolism, alpha-amino acid metabolism, trehalose biosynthesis, serine family amino acid metabolism, and carbohydrate transport. Together, our findings reveal that carbohydrate metabolism is coordinated with the degradation of amino acids to provide carbon skeletons to the tricarboxylic acid cycle. This coordination may help to maintain energetic balance during drought stress adaptation, facilitating recovery after the stress is alleviated. Our results shed light on candidate regulatory elements and pave the way to biotechnology strategies towards the development of drought-tolerant sugarcane plants.

Published

2020

38. Plant 3' Regulatory Regions From mRNA-Encoding Genes and Their Uses to Modulate Expression.

Author

Bernardes WS and Menossi M

Abstract

Molecular biotechnology has made it possible to explore the potential of plants for different purposes. The 3' regulatory regions have a great diversity of cis -regulatory elements directly involved in polyadenylation, stability, transport and mRNA translation, essential to achieve the desired levels of gene expression. A complex interaction between the cleavage and polyadenylation molecular complex and cis -elements determine the polyadenylation site, which may result in the choice of non-canonical sites, resulting in alternative polyadenylation events, involved in the regulation of more than 80% of the genes expressed in plants. In addition, after transcription, a wide array of RNA-binding proteins interacts with cis -acting elements located mainly in the 3' untranslated region, determining the fate of mRNAs in eukaryotic cells. Although a small number of 3' regulatory regions have been identified and validated so far, many studies have shown that plant 3' regulatory regions have a higher potential to regulate gene expression in plants compared to widely used 3' regulatory regions, such as NOS and OCS from Agrobacterium tumefaciens and 35S from cauliflower mosaic virus. In this review, we discuss the role of 3' regulatory regions in gene expression, and the superior potential that plant 3' regulatory regions have compared to NOS, OCS and 35S 3' regulatory regions., (Copyright © 2020 Bernardes and Menossi.)

Published

2020

39. Bringing to light the molecular evolution of GUX genes in plants.

Author

Gallinari RH, Coletta RD, Araújo P, Menossi M, and Nery MF

Abstract

Hemicellulose and cellulose are essential polysaccharides for plant development and major components of cell wall. They are also an important energy source for the production of ethanol from plant biomass, but their conversion to fermentable sugars is hindered by the complex structure of cell walls. The glucuronic acid substitution of xylan (GUX) enzymes attach glucuronic acid to xylan, a major component of hemicellulose, decreasing the efficiency of enzymes used for ethanol production. Since loss-of-function gux mutants of Arabidopsis thaliana enhance enzyme accessibility and cell wall digestion without adverse phenotypes, GUX genes are potential targets for genetically improving energy crops. However, comprehensive identification of GUX in important species and their evolutionary history are largely lacking. Here, we identified putative GUX proteins using hidden Markov model searches with the GT8 domain and a GUX-specific motif, and inferred the phylogenetic relationship of 18 species with Maximum likelihood and Bayesian approaches. Each species presented a variable number of GUX, and their evolution can be explained by a mixture of divergent, concerted and birth-and-death evolutionary models. This is the first broad insight into the evolution of GUX gene family in plants and will potentially guide genetic and functional studies in species used for biofuel production.

Published

2020

40. Overexpression of an evolutionarily conserved drought-responsive sugarcane gene enhances salinity and drought resilience.

Author

Begcy K, Mariano ED, Lembke CG, Zingaretti SM, Souza GM, Araújo P, and Menossi M

Subjects

Gene Expression Regulation, Plant, Plant Proteins, Plants, Genetically Modified, Salinity, Stress, Physiological, Droughts, Saccharum

Abstract

Background and Aims: Improving drought adaptation is more pressing for crops such as sugarcane, rice, wheat and maize, given the high dependence of these crops on irrigation. One option for enhancing adaptation to water limitation in plants is by transgenic approaches. An increasing number of genes that are associated with mechanisms used by plants to cope with water scarcity have been discovered. Genes encoding proteins with unknown functions comprise a relevant fraction of the genes that are modulated by drought. We characterized a gene in response to environmental stresses to gain insight into the unknown fraction of the sugarcane genome. Scdr2 (Sugarcane drought-responsive 2) encodes a small protein and shares highly conserved sequences within monocots, dicots, algae and fungi., Methods: Plants overexpressing the Scdr2 sugarcane gene were examined in response to salinity and drought. Measurements of the gas exchange parameters, germination rate, water content, dry mass and oxidative damage were performed. Seeds as well as juvenile plants were used to explore the resilience level of the transgenic plants when compared with wild-type plants., Key Results: Overexpression of Scdr2 enhanced germination rates in tobacco seeds under drought and salinity conditions. Juvenile transgenic plants overexpressing Scdr2 and subjected to drought and salinity stresses showed higher photosynthesis levels, internal CO2 concentration and stomatal conductance, reduced accumulation of hydrogen peroxide in the leaves, no penalty for photosystem II and faster recovery after submission to both stress conditions. Respiration was not strongly affected by both stresses in the Scdr2 transgenic plants, whereas wild-type plants exhibited increased respiration rates., Conclusions: Scdr2 is involved in the response mechanism to abiotic stresses. Higher levels of Scdr2 enhanced resilience to salinity and drought, and this protection correlated with reduced oxidative damage. Scdr2 confers, at the physiological level, advantages to climate limitations. Therefore, Scdr2 is a potential target for improving sugarcane resilience to abiotic stress., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Annals of Botany Company.)

Published

2019

41. The C-Terminal Domains SnRK2 Box and ABA Box Have a Role in Sugarcane SnRK2s Auto-Activation and Activity.

Author

Righetto GL, Sriranganadane D, Halabelian L, Chiodi CG, Elkins JM, Massirer KB, Gileadi O, Menossi M, and Couñago RM

Abstract

Resistance to drought stress is fundamental to plant survival and development. Abscisic acid (ABA) is one of the major hormones involved in different types of abiotic and biotic stress responses. ABA intracellular signaling has been extensively explored in Arabidopsis thaliana and occurs via a phosphorylation cascade mediated by three related protein kinases, denominated SnRK2s (SNF1-related protein kinases). However, the role of ABA signaling and the biochemistry of SnRK2 in crop plants remains underexplored. Considering the importance of the ABA hormone in abiotic stress tolerance, here we investigated the regulatory mechanism of sugarcane SnRK2s-known as stress/ABA-activated protein kinases (SAPKs). The crystal structure of ScSAPK10 revealed the characteristic SnRK2 family architecture, in which the regulatory SnRK2 box interacts with the kinase domain αC helix. To study sugarcane SnRK2 regulation, we produced a series of mutants for the protein regulatory domains SnRK2 box and ABA box. Mutations in ScSAPK8 SnRK2 box aimed at perturbing its interaction with the protein kinase domain reduced protein kinase activity in vitro . On the other hand, mutations to ScSAPK ABA box did not impact protein kinase activity but did alter the protein autophosphorylation pattern. Taken together, our results demonstrate that both SnRK2 and ABA boxes might play a role in sugarcane SnRK2 function., (Copyright © 2019 Righetto, Sriranganadane, Halabelian, Chiodi, Elkins, Massirer, Gileadi, Menossi and Couñago.)

Published

2019

42. Brassinosteroids, the Sixth Class of Phytohormones: A Molecular View from the Discovery to Hormonal Interactions in Plant Development and Stress Adaptation.

Author

Peres ALGL, Soares JS, Tavares RG, Righetto G, Zullo MAT, Mandava NB, and Menossi M

Subjects

Brassinosteroids chemistry, Plant Growth Regulators chemistry, Signal Transduction, Adaptation, Physiological, Brassinosteroids metabolism, Plant Development, Plant Growth Regulators metabolism, Stress, Physiological

Abstract

Phytohormones are natural chemical messengers that play critical roles in the regulation of plant growth and development as well as responses to biotic and abiotic stress factors, maintaining plant homeostasis, and allowing adaptation to environmental changes. The discovery of a new class of phytohormones, the brassinosteroids (BRs), almost 40 years ago opened a new era for the studies of plant growth and development and introduced new perspectives in the regulation of agronomic traits through their use in agriculture. BRs are a group of hormones with significant growth regulatory activity that act independently and in conjunction with other phytohormones to control different BR-regulated activities. Genetic and molecular research has increased our understanding of how BRs and their cross-talk with other phytohormones control several physiological and developmental processes. The present article provides an overview of BRs' discovery as well as recent findings on their interactions with other phytohormones at the transcriptional and post-transcriptional levels, in addition to clarifying how their network works to modulate plant growth, development, and responses to biotic and abiotic stresses.

Published

2019

43. Transgenic Nicotiana tabacum seeds expressing the Mycobacterium tuberculosis Alanine- and Proline-rich antigen.

Author

Módolo DG, Horn CS, Soares JSM, Yunes JA, Lima LM, de Sousa SM, and Menossi M

Abstract

The glycoprotein APA (Alanine- and Proline-rich Antigen, a 45/47 kDa antigen complex, Rv1860) is considered as a major immunodominant antigen secreted by M. tuberculosis. This antigen has proved to be highly immunogenic in experimental models and humans, presenting a significant potential for further development of a new vaccine for tuberculosis. Glycosylation plays a key role in the immunogenicity of the APA protein. Because plants are known to promote post-translational modification such as glycosylation and to be one of the most economic and safe hosts for recombinant protein expression, we have over expressed the APA protein in transgenic tobacco plants aiming to produce a glycosylated version of the protein. Seeds are known to be a well-suited organ to accumulate recombinant proteins, due to low protease activity and higher protein stability. We used a seed-specific promoter from sorghum, a signal peptide to target the protein to the endoplasmic reticulum and ultimately in the protein storage vacuoles. We show that the recombinant protein accumulated in the seeds had similar isoelectric point and molecular weight compared with the native protein. These findings demonstrate the ability of tobacco plants to produce glycosylated APA protein, opening the way for the development of secure, effective and versatile vaccines or therapeutic proteins against tuberculosis.

Published

2018

44. ScGAI is a key regulator of culm development in sugarcane.

Author

Garcia Tavares R, Lakshmanan P, Peiter E, O'Connell A, Caldana C, Vicentini R, Soares JS, and Menossi M

Subjects

Amino Acid Sequence, Biomass, Gene Expression, Plant Leaves growth & development, Plant Leaves metabolism, Plant Proteins chemistry, Plant Proteins genetics, Plant Proteins metabolism, Plants, Genetically Modified, Saccharum metabolism, Sequence Homology, Amino Acid, Sucrose metabolism, Sumoylation, Genes, Plant, Saccharum genetics, Saccharum growth & development

Abstract

Sugarcane contributes more than 70% of sugar production and is the second largest feedstock for ethanol production globally. Since sugar accumulates in sugarcane culms, culm biomass and sucrose content are the most commercially important traits. Despite extensive breeding, progress in both cane yield and sugar content remains very slow in most countries. We hypothesize that manipulating the genetic elements controlling culm growth will alter source-sink regulation and help break down the yield barriers. In this study, we investigate the role of sugarcane ScGAI, an ortholog of SLR1/D8/RHT1/GAI, on culm development and source-sink regulation through a combination of molecular techniques and transgenic strategies. We show that ScGAI is a key molecular regulator of culm growth and development. Changing ScGAI activity created substantial culm growth and carbon allocation changes for structural molecules and storage. ScGAI regulates spatio-temporal growth of sugarcane culm and leaf by interacting with ScPIF3/PIF4 and ethylene signaling elements ScEIN3/ScEIL1, and its action appears to be regulated by SUMOylation in leaf but not in the culm. Collectively, the remarkable culm growth variation observed suggests that ScGAI could be used as an effective molecular breeding target for breaking the slow yield gain in sugarcane.

Published

2018

45. The FBH family of bHLH transcription factors controls ACC synthase expression in sugarcane.

Author

Alessio VM, Cavaçana N, Dantas LLB, Lee N, Hotta CT, Imaizumi T, and Menossi M

Subjects

Basic Helix-Loop-Helix Transcription Factors metabolism, Isoenzymes metabolism, Lyases metabolism, Plant Proteins metabolism, Plants, Genetically Modified enzymology, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Promoter Regions, Genetic, Saccharum enzymology, Saccharum metabolism, Basic Helix-Loop-Helix Transcription Factors genetics, Ethylenes metabolism, Gene Expression Regulation, Plant genetics, Lyases genetics, Plant Growth Regulators metabolism, Plant Proteins genetics, Saccharum genetics

Abstract

Ethylene is a phytohormone involved in the regulation of several aspects of plant development and in responses to biotic and abiotic stress. The effects of exogenous application of ethylene to sugarcane plants are well characterized as growth inhibition of immature internodes and stimulation of sucrose accumulation. However, the molecular network underlying the control of ethylene biosynthesis in sugarcane remains largely unknown. The chemical reaction catalyzed by 1-aminocyclopropane-1-carboxylic acid synthase (ACS) is an important rate-limiting step that regulates ethylene production in plants. In this work, using a yeast one-hybrid approach, we identified three basic helix-loop-helix (bHLH) transcription factors, homologs of Arabidopsis FBH (FLOWERING BHLH), that bind to the promoter of ScACS2 (Sugarcane ACS2), a sugarcane type 3 ACS isozyme gene. Protein-protein interaction assays showed that sugarcane FBH1 (ScFBH1), ScFBH2, and ScFBH3 form homo- and heterodimers in the nucleus. Gene expression analysis revealed that ScFBHs and ScACS2 transcripts are more abundant in maturing internodes during afternoon and night. In addition, Arabidopsis functional analysis demonstrated that FBH controls ethylene production by regulating transcript levels of ACS7, a homolog of ScACS2. These results indicate that ScFBHs transcriptionally regulate ethylene biosynthesis in maturing internodes of sugarcane.

Published

2018

46. pGVG: a new Gateway-compatible vector for transformation of sugarcane and other monocot crops.

Author

Guidelli GV, Mattiello L, Gallinari RH, Lucca PC, and Menossi M

Abstract

The successful development of genetically engineered monocots using Agrobacterium-mediated transformation has created an increasing demand for compatible vectors. We have developed a new expression vector, pGVG, for efficient transformation and expression of different constructs for gene overexpression and silencing in sugarcane. The pCAMBIA2300 binary vector was modified by adding Gateway recombination sites for fast gene transfer between vectors and the maize polyubiquitin promoter Ubi-1 (ZmUbi1), which is known to drive high gene expression levels in monocots. Transformation efficiency using the pGVG vector reached up to 14 transgenic events per gram of transformed callus. Transgenic plants expressing the β-glucuronidase (GUS) reporter gene from pGVG showed high levels of GUS activity. qRT-PCR evaluations demonstrated success for both overexpression and hairpin-based silencing cassettes. Therefore, pGVG is suitable for plant transformation and subsequent applications for high-throughput production of stable transgenic sugarcane. The use of an expression cassette based on the ZmUbi1 promoter opens the possibility of using pGVG in other monocot species.

Published

2018

47. Crystal structure and insights into the oligomeric state of UDP-glucose pyrophosphorylase from sugarcane.

Author

Cotrim CA, Soares JSM, Kobe B, and Menossi M

Subjects

Catalytic Domain, Cloning, Molecular, Crystallography, X-Ray, Models, Molecular, Plant Proteins chemistry, Plant Proteins genetics, Plant Proteins metabolism, Protein Conformation, Protein Multimerization, Saccharum chemistry, Saccharum genetics, UTP-Glucose-1-Phosphate Uridylyltransferase metabolism, Saccharum enzymology, UTP-Glucose-1-Phosphate Uridylyltransferase chemistry, UTP-Glucose-1-Phosphate Uridylyltransferase genetics

Abstract

UDP-glucose pyrophosphorylase (UGPase) is found in all organisms and catalyses the formation of UDP-glucose. In sugarcane, UDP-glucose is a branch-point in the carbon channelling into other carbohydrates, such as sucrose and cellulose, which are the major factors for sugarcane productivity. In most plants, UGPase has been described to be enzymatically active in the monomeric form, while in human and yeast, homo-octamers represent the active form of the protein. Here, we present the crystal structure of UGPase from sugarcane (ScUGPase-1) at resolution of 2.0 Å. The crystals of ScUGPase-1 reveal the presence of two molecules in the asymmetric unit and the multi-angle light scattering analysis shows that ScUGPase-1 forms a mixture of species ranging from monomers to larger oligomers in solution, suggesting similarities with the orthologs from yeast and human.

Published

2018

48. Nitrogen supply influences photosynthesis establishment along the sugarcane leaf.

Author

Bassi D, Menossi M, and Mattiello L

Subjects

Cell Respiration, Genotype, Plant Leaves growth & development, Saccharum genetics, Saccharum growth & development, Nitrogen metabolism, Photosynthesis, Plant Leaves metabolism, Saccharum metabolism

Abstract

Nitrogen (N) is a major component of the photosynthetic apparatus and is widely used as a fertilizer in crops. However, to the best of our knowledge, the dynamic of photosynthesis establishment due to differential N supply in the bioenergy crop sugarcane has not been reported to date. To address this question, we evaluated physiological and metabolic alterations along the sugarcane leaf in two contrasting genotypes, responsive (R) and nonresponsive (NR), grown under high- and low-N conditions. We found that the N supply and the responsiveness of the genotype determined the degree of senescence, the carboxylation process mediated by phosphoenolpyruvate carboxylase (PEPcase) and differential accumulation of soluble sugars. The metabolite profiles indicated that the NR genotype had a higher respiration rate in the youngest tissues after exposure to high N. We observed elevated levels of metabolites related to photosynthesis in almost all leaf segments from the R genotype under high-N conditions, suggesting that N supply and the ability to respond to N influenced photosynthesis. Therefore, we observed that N influence on photosynthesis and other pathways is dependent on the genotype and the leaf region.

Published

2018

49. Sugarcane Water Stress Tolerance Mechanisms and Its Implications on Developing Biotechnology Solutions.

Author

Ferreira THS, Tsunada MS, Bassi D, Araújo P, Mattiello L, Guidelli GV, Righetto GL, Gonçalves VR, Lakshmanan P, and Menossi M

Abstract

Sugarcane is a unique crop with the ability to accumulate high levels of sugar and is a commercially viable source of biomass for bioelectricity and second-generation bioethanol. Water deficit is the single largest abiotic stress affecting sugarcane productivity and the development of water use efficient and drought tolerant cultivars is an imperative for all major sugarcane producing countries. This review summarizes the physiological and molecular studies on water deficit stress in sugarcane, with the aim to help formulate more effective research strategies for advancing our knowledge on genes and mechanisms underpinning plant response to water stress. We also overview transgenic studies in sugarcane, with an emphasis on the potential strategies to develop superior sugarcane varieties that improve crop productivity in drought-prone environments.

Published

2017

50. Integrated analysis of recombinant BPV-1 L1 protein for the production of a bovine papillomavirus VLP vaccine.

Author

Módolo DG, Araldi RP, Mazzuchelli-de-Souza J, Pereira A, Pimenta DC, Zanphorlin LM, Beçak W, Menossi M, de Cassia Stocco R, and de Carvalho RF

Subjects

Animals, Antibodies, Viral blood, Bovine papillomavirus 1 genetics, Capsid Proteins chemistry, Capsid Proteins genetics, Cattle, Papillomavirus Infections prevention & control, Papillomavirus Vaccines administration & dosage, Papillomavirus Vaccines genetics, Protein Conformation, Protein Folding, Protein Multimerization, Protein Stability, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins immunology, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Vaccines, Virus-Like Particle chemistry, Vaccines, Virus-Like Particle genetics, Vaccines, Virus-Like Particle immunology, Bovine papillomavirus 1 immunology, Capsid Proteins immunology, Cattle Diseases prevention & control, Papillomavirus Infections veterinary, Papillomavirus Vaccines immunology

Abstract

Bovine papillomatosis is an infectious disease that is caused by bovine papillomavirus (BPV), which results in important economic losses. However, no BPV vaccines or effective treatment methods are commercially available to date. Moreover, the absence of papillomavirus replication in vitro makes the use of recombinant protein a promising candidate for vaccine formulations. Hence, we developed an integrated study on the L1 capsid protein of BPV-1, obtained from a bacterial expression system, regarding its purification, biosafety, thermostability and immunogenicity. The results indicated an absence of genotoxicity of the purified recombinant L1 protein, β-sheet prevalence of secondary structure folding, protein stability under high temperatures as well as the presence of capsomeres and VLPs. In addition, preliminary experimental vaccination of calves showed the production of specific antibodies against BPV-1 L1., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017