PR gene families of citrus: their organ specific-biotic and abiotic inducible expression profiles based on ESTs approach

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

microRNA156-targeted SPL/ SBP box transcription factors regulate tomato ovary and fruit development

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Characterization of Opsin Gene Alleles Affecting Color Vision in a Wild Population of Titi Monkeys (Callicebus brunneus)

The color vision of most platyrrhine primates is determined by alleles at the polymorphic X-linked locus coding for the opsin responsible for the middle- to long-wavelength (M/L) cone photopigment. Females who are heterozygous at the locus have trichromatic vision, whereas homozygous females and all males are dichromatic. This study characterized the opsin alleles in a wild population of the socially monogamous platyrrhine monkey Callicebus brunneus (the brown titi monkey), a primate that an earlier study suggests may possess an unusual number of alleles at this locus and thus may be a subject of special interest in the study of primate color vision. Direct sequencing of regions of the M/L opsin gene using feces-, blood-, and saliva-derived DNA obtained from 14 individuals yielded evidence for the presence of three functionally distinct alleles, corresponding to the most common M/L photopigment variants inferred from a physiological study of cone spectral sensitivity in captive Callicebus. Am. J. Primatol. 73:189-196, 2011. (C) 2010 Wiley-Liss, Inc.

Novel insights into the genomic basis of citrus canker based on the genome sequences of two strains of Xanthomonas fuscans subsp. aurantifolii

Abstract Background Citrus canker is a disease that has severe economic impact on the citrus industry worldwide. There are three types of canker, called A, B, and C. The three types have different phenotypes and affect different citrus species. The causative agent for type A is Xanthomonas citri subsp. citri, whose genome sequence was made available in 2002. Xanthomonas fuscans subsp. aurantifolii strain B causes canker B and Xanthomonas fuscans subsp. aurantifolii strain C causes canker C. Results We have sequenced the genomes of strains B and C to draft status. We have compared their genomic content to X. citri subsp. citri and to other Xanthomonas genomes, with special emphasis on type III secreted effector repertoires. In addition to pthA, already known to be present in all three citrus canker strains, two additional effector genes, xopE3 and xopAI, are also present in all three strains and are both located on the same putative genomic island. These two effector genes, along with one other effector-like gene in the same region, are thus good candidates for being pathogenicity factors on citrus. Numerous gene content differences also exist between the three cankers strains, which can be correlated with their different virulence and host range. Particular attention was placed on the analysis of genes involved in biofilm formation and quorum sensing, type IV secretion, flagellum synthesis and motility, lipopolysacharide synthesis, and on the gene xacPNP, which codes for a natriuretic protein. Conclusion We have uncovered numerous commonalities and differences in gene content between the genomes of the pathogenic agents causing citrus canker A, B, and C and other Xanthomonas genomes. Molecular genetics can now be employed to determine the role of these genes in plant-microbe interactions. The gained knowledge will be instrumental for improving citrus canker control.

Stem cell pathways in the basal-like breast carcinoma: the role of beta-catenin and HIF-1alpha

Basal-like tumor is an aggressive breast carcinoma subtype that displays an expression signature similar to that of the basal/myoepithelial cells of the breast tissue. Basal-like carcinoma are characterized by over-expression of the Epidermal Growth Factor receptor (EGFR), high frequency of p53 mutations, cytoplasmic/nuclear localization of beta-catenin, overexpression of the Hypoxia inducible factor (HIF)-1alpha target Carbonic Anhydrase isoenzime 9 (CA9) and a gene expression pattern similar to that of normal and cancer stem cells, including the over-expression of the mammary stem cell markers CD44. In this study we investigated the role of p53, EGFR, beta-catenin and HIF-1alpha in the regulation of stem cell features and genes associated with the basal-like gene expression profile. The findings reported in this investigation indicate that p53 inactivation in ductal breast carcinoma cells leads to increased EGFR mRNA and protein levels. In our experimental model, EGFR overexpression induces beta-catenin cytoplasmatic stabilization and transcriptional activity and, by that, leads to increased aggressive features including mammosphere (MS) forming and growth capacity, invasive potential and overexpression of the mammary stem cell gene CD44. Moreover we found that EGFR/beta-catenin axis promotes hypoxia survival in breast carcinoma cells via increased CA9 expression. Indeed beta-catenin positively regulates CA9 expression upon hypoxia exposure. Interestingly we found that beta-catenin inhibits HIF-1alpha transcriptional activity. Looking for the mechanism, we found that CA9 expression is promoted by HIF-1alpha and cytoplasmatic beta-catenin further increased it post-transcriptionally, via direct mRNA binding and stabilization. These data reveal a functional beta-catenin/HIF-1alpha interplay among hallmarks of basal-like tumors and unveil a new functional role for cytoplasmic beta-catenin in the phenotype of such tumors. Therefore it can be proposed that the interplay here described among EGFR/beta-catenin and HIF-1alpha may play a role in breast cancer stem cell survival and function.

Nuclear cysteine cathepsin variants in thyroid carcinoma cells

The cysteine peptidase cathepsin B is important in thyroid physiology by being involved in thyroid prohormone processing initiated in the follicular lumen and completed in endo-lysosomal compartments. However, cathepsin B has also been localized to the extrafollicular space and is therefore suggested to promote invasiveness and metastasis in thyroid carcinomas through, e.g., ECM degradation. In this study, immunofluorescence and biochemical data from subcellular fractionation revealed that cathepsin B, in its single- and two-chain forms, is localized to endo-lysosomes in the papillary thyroid carcinoma cell line KTC-1 and in the anaplastic thyroid carcinoma cell lines HTh7 and HTh74. This distribution is not affected by thyroid stimulating hormone (TSH) incubation of HTh74, the only cell line that expresses a functional TSH-receptor. Immunofluorescence data disclosed an additional nuclear localization of cathepsin B immunoreactivity. This was supported by biochemical data showing a proteolytically active variant slightly smaller than the cathepsin B proform in nuclear fractions. We also demonstrate that immunoreactions specific for cathepsin V, but not cathepsin L, are localized to the nucleus in HTh74 in peri-nucleolar patterns. As deduced from co-localization studies and in vitro degradation assays, we suggest that nuclear variants of cathepsins are involved in the development of thyroid malignancies through modification of DNA-associated proteins.

Gene expression in cortex and hippocampus during acute pneumococcal meningitis

BACKGROUND: Pneumococcal meningitis is associated with high mortality (approximately 30%) and morbidity. Up to 50% of survivors are affected by neurological sequelae due to a wide spectrum of brain injury mainly affecting the cortex and hippocampus. Despite this significant disease burden, the genetic program that regulates the host response leading to brain damage as a consequence of bacterial meningitis is largely unknown.We used an infant rat model of pneumococcal meningitis to assess gene expression profiles in cortex and hippocampus at 22 and 44 hours after infection and in controls at 22 h after mock-infection with saline. To analyze the biological significance of the data generated by Affymetrix DNA microarrays, a bioinformatics pipeline was used combining (i) a literature-profiling algorithm to cluster genes based on the vocabulary of abstracts indexed in MEDLINE (NCBI) and (ii) the self-organizing map (SOM), a clustering technique based on covariance in gene expression kinetics. RESULTS: Among 598 genes differentially regulated (change factor > or = 1.5; p < or = 0.05), 77% were automatically assigned to one of 11 functional groups with 94% accuracy. SOM disclosed six patterns of expression kinetics. Genes associated with growth control/neuroplasticity, signal transduction, cell death/survival, cytoskeleton, and immunity were generally upregulated. In contrast, genes related to neurotransmission and lipid metabolism were transiently downregulated on the whole. The majority of the genes associated with ionic homeostasis, neurotransmission, signal transduction and lipid metabolism were differentially regulated specifically in the hippocampus. Of the cell death/survival genes found to be continuously upregulated only in hippocampus, the majority are pro-apoptotic, while those continuously upregulated only in cortex are anti-apoptotic. CONCLUSION: Temporal and spatial analysis of gene expression in experimental pneumococcal meningitis identified potential targets for therapy.

Gene and protein expression of galectin-3 and galectin-9 in experimental pneumococcal meningitis

Inflammation of the subarachnoid and ventricular space contributes to the development of brain damage i.e. cortical necrosis and hippocampal apoptosis in pneumococcal meningitis (PM). Galectin-3 and -9 are known pro-inflammatory mediators and regulators of apoptosis. Here, the gene and protein expression profile for both galectins was assessed in the disease progression of PM. The mRNA of Lgals3 and Lgals9 increased continuously in the cortex and in the hippocampus from 22 h to 44 h after infection. At 44 h after infection, mRNA levels of Lgals9 in the hippocampus were 7-fold and those of Lgals3 were 30-fold higher than in uninfected controls (P<0.01). Galectin-9 protein did not change, but galectin-3 significantly increased in cortex and hippocampus with the duration of PM. Galectin-3 was localized to polymorphonuclear neutrophils, microglia, monocytes and macrophages, suggesting an involvement of galectin-3 in the neuroinflammatory processes leading to brain damage in PM.

Factores transcripcionales de la clase DOF en Brachypodium distachyon: caracterización molecular de BdDOF24 durante la germinación de las semillas

La semilla es el órgano que garantiza la propagación y continuidad evolutiva de las plantas espermatofitas y constituye un elemento indispensable en la alimentación humana y animal. La semilla de cereales acumula en el endospermo durante la maduración, mayoritariamente, almidón y proteínas de reserva. Estas reservas son hidrolizadas en la germinación por hidrolasas sintetizadas en la aleurona en respuesta a giberelinas (GA), siendo la principal fuente de energía hasta que la plántula emergente es fotosintéticamente activa. Ambas fases del desarrollo de la semilla, están reguladas por una red de factores de transcripción (TF) que unen motivos conservados en cis- en los promotores de sus genes diana. Los TFs son proteínas que han desempeñado un papel central en la evolución y en el proceso de domesticación, siendo uno de los principales mecanismos de regulación génica; en torno al 7% de los genes de plantas codifican TFs. Atendiendo al motivo de unión a DNA, éstos, se han clasificado en familias. La familia DOF (DNA binding with One Finger) participa en procesos vitales exclusivos de plantas superiores y sus ancestros cercanos (algas, musgos y helechos). En las semillas de las Triticeae (subfamilia Pooideae), se han identificado varias proteínas DOF que desempeñan un papel fundamental en la regulación de la expresión génica. Brachypodium distachyon es la primera especie de la subfamilia Pooideae cuyo genoma (272 Mbp) ha sido secuenciado. Su pequeño tamaño, ciclo de vida corto, y la posibilidad de ser transformado por Agrobacterium tumefaciens (plásmido Ti), hacen que sea el sistema modelo para el estudio de cereales de la tribu Triticeae con gran importancia agronómica mundial, como son el trigo y la cebada. En este trabajo, se han identificado 27 genes Dof en el genoma de B. distachyon y se han establecido las relaciones evolutivas entre estos genes Dof y los de cebada (subfamilia Pooideae) y de arroz (subfamilia Oryzoideae), construyendo un árbol filogenético en base al alineamiento múltiple del dominio DOF. La cebada contiene 26 genes Dof y en arroz se han anotado 30. El análisis filogenético establece cuatro grupos de genes ortólogos (MCOGs: Major Clusters of Orthologous Genes), que están validados por motivos conservados adicionales, además del dominio DOF, entre las secuencias de las proteínas de un mismo MCOG. El estudio global de expresión en diferentes órganos establece un grupo de nueve genes BdDof expresados abundantemente y/o preferencialmente en semillas. El estudio detallado de expresión de estos genes durante la maduración y germinación muestra que BdDof24, ortólogo putativo a BPBF-HvDOF24 de cebada, es el gen más abundante en las semillas en germinación de B. distachyon. La regulación transcripcional de los genes que codifican hidrolasas en la aleurona de las semillas de cereales durante la post‐germinación ha puesto de manifiesto la existencia en sus promotores de un motivo tripartito en cis- conservado GARC (GA-Responsive Complex), que unen TFs de la clase MYB-R2R3, DOF y MYBR1-SHAQKYF. En esta tesis, se ha caracterizado el gen BdCathB de Brachypodium que codifica una proteasa tipo catepsina B y es ortólogo a los genes Al21 de trigo y HvCathB de cebada, así como los TFs responsables de su regulación transcripcional BdDOF24 y BdGAMYB (ortólogo a HvGAMYB). El análisis in silico del promotor BdCathB ha identificado un motivo GARC conservado, en posición y secuencia, con sus ortólogos en trigo y cebada. La expresión de BdCathB se induce durante la germinación, así como la de los genes BdDof24 y BdGamyb. Además, los TFs BdDOF24 y BdGAMYB interaccionan en el sistema de dos híbridos de levadura e in planta en experimentos de complementación bimolecular fluorescente. En capas de aleurona de cebada, BdGAMYB activa el promotor BdCathB, mientras que BdDOF24 lo reprime; este resultado es similar al obtenido con los TFs ortólogos de cebada BPBF-HvDOF24 y HvGAMYB. Sin embargo, cuando las células de aleurona se transforman simultáneamente con los dos TFs, BdDOF24 tiene un efecto aditivo sobre la trans-activación mediada por BdGAMYB, mientras que su ortólogo BPBF-HvDOF24 produce el efecto contrario, revirtiendo el efecto de HvGAMYB sobre el promotor BdCathB. Las diferencias entre las secuencias deducidas de las proteínas BdDOF24 y BPBF-HvDOF24 podrían explicar las funciones opuestas que desempeñan en su interacción con GAMYB. Resultados preliminares con líneas de inserción de T-DNA y de sobre-expresión estable de BdGamyb, apoyan los resultados obtenidos en expresión transitoria. Además las líneas homocigotas knock-out para el gen BdGamyb presentan alteraciones en anteras y polen y no producen semillas viables. ABSTRACT The seed is the plant organ of the spermatophytes responsible for the dispersion and survival in the course of evolution. In addition, it constitutes one of the most importan elements of human food and animal feed. The main reserves accumulated in the endosperm of cereal seeds through the maturation phase of development are starch and proteins. Its degradation by hydrolases synthetized in aleurone cells in response to GA upon germination provides energy, carbon and nitrogen to the emerging seedling before it acquires complete photosynthetic capacity. Both phases of seed development are controlled by a network of transcription factors (TFs) that interact with specific cis- elements in the promoters of their target genes. TFs are proteins that have played a central role during evolution and domestication, being one of the most important regulatory mechanisms of gene expression. Around 7% of genes in plant genomes encode TFs. Based on the DNA binding motif, TFs are classified into families. The DOF (DNA binding with One Finger) family is involved in specific processes of plants and its ancestors (algae, mosses and ferns). Several DOF proteins have been described to play important roles in the regulation of genes in seeds of the Triticeae tribe (Pooideae subfamily). Brachypodium distachyon is the first member of the Pooideae subfamily to be sequenced. Its small size and compact structured genome (272 Mbp), the short life cycle, small plant size and the possibility of being transformed with Agrobacterium tumefaciens (Ti-plasmid) make Brachypodium the model system for comparative studies within cereals of the Triticeae tribe that have big economic value such as wheat and barley. In this study, 27 Dof genes have been identified in the genome of B. distachyon and the evolutionary relationships among these Dof genes and those frome barley (Pooideae subfamily) and those from rice (Oryzoideae subfamily) have been established by building a phylogenetic tree based on the multiple alignment of the DOF DNA binding domains. The barley genome (Hordeum vulgare) contains 26 Dof genes and in rice (Oryza sativa) 30 genes have been annotated. The phylogenetic analysis establishes four Major Clusters of Orthologous Genes (MCOGs) that are supported by additional conserved motives out of the DOF domain, between proteins of the same MCOG. The global expression study of BdDof genes in different organs and tissues classifies BdDof genes into two groups; nine of the 27 BdDof genes are abundantly or preferentially expressed in seeds. A more detailed expression analysis of these genes during seed maturation and germination shows that BdDof24, orholog to barley BPBF-HvDof24, is the most abundantly expressed gene in germinating seeds. Transcriptional regulation studies of genes that encode hydrolases in aleurone cells during post-germination of cereal seeds, have identified in their promoters a tripartite conserved cis- motif GARC (GA-Responsive Complex) that binds TFs of the MYB-R2R3, DOF and MYBR1-SHAQKYF families. In this thesis, the characterization of the BdCathB gene, encoding a Cathepsin B-like protease and that is ortholog to the wheat Al21 and the barley HvCathB genes, has been done and its transcriptional regulation by the TFs BdDOF24 and BdGAMYB (ortholog to HvGAMYB) studied. The in silico analysis of the BdCathB promoter sequence has identified a GARC motif. BdCathB expression is induced upon germination, as well as, those of BdDof24 and BdGamyb genes. Moreover, BdDOF24 and BdGAMYB interact in yeast (Yeast 2 Hybrid System, Y2HS) and in planta (Bimolecular Fluorecence Complementation, BiFC). In transient assays in aleurone cells, BdGAMYB activates the BdCathB promoter, whereas BdDOF24 is a transcriptional repressor, this result is similar to that obtained with the barley orthologous genes BPBF-HvDOF24 and HvGAMYB. However, when aleurone cells are simultaneously transformed with both TFs, BdDOF24 has an additive effect to the trans-activation mediated by BdGAMYB, while its ortholog BPBF-HvDOF24 produces an opposite effect by reducing the HvGAMYB activation of the BdCathB promoter. The differences among the deduced protein sequences between BdDOF24 and BPBF-HvDOF24 could explain their opposite functions in the interaction with GAMYB protein. Preliminary results of T-DNA insertion (K.O.) and stable over-expression lines of BdGamyb support the data obtained in transient expression assays. In addition, the BdGamyb homozygous T-DNA insertion (K.O.) lines have anther and pollen alterations and they do not produce viable seeds.

Senescence-associated proteolysis induced by abiotic and biotic stresses in barley leaves

Leaf senescence is a recycling process characterized by a massive degradation of macromolecules to relocalize nutrients from leaves to growing or storage tissues. Our aim is to identify and analyze the C1A Cysteine ‐Protease (CysProt) family members from barley (35 cathepsin L‐,3B‐,1Hand3F‐like) involved in leaf senescence, to study their modulation by their specific inhibitors (cystatins) and to determine their roles mediated by abiotic (darkness and N starvation) and biotic (pathogens and pest) stresses.

Isolation of human and mouse genes based on homology to REC2, a recombinational repair gene from the fungus Ustilago maydis

A human and a mouse gene have been isolated based on homology to a recombinational repair gene from the corn smut Ustilago maydis. The new human (h) gene, termed hREC2, bears striking resemblance to several others, including hRAD51 and hLIM15. hREC2 is located on human chromosome 14 at q23–24. The overall amino acid sequence reveals characteristic elements of a RECA-like gene yet harbors an src-like phosphorylation site curiously absent from hRAD51 and hLIM15. Unlike these two relatives, hREC2 is expressed in a wide range of tissues including lung, liver, placenta, pancreas, leukocytes, colon, small intestine, brain, and heart, as well as thymus, prostate, spleen, and uterus. Of greatest interest is that hREC2 is undetectable by reverse transcription-coupled PCR in tissue culture unless the cells are treated by ionizing radiation.

Induction of the Tat-binding protein 1 gene accompanies the disabling of oncogenic erbB receptor tyrosine kinases

Conversion of a malignant phenotype into a more normal one can be accomplished either by down-regulation of erbB family surface receptors or by creating inactive erbB heterodimers on the cell surface. In this report, we report the identification and cloning of differentially expressed genes from antibody-treated vs. untreated fibroblasts transformed by oncogenic p185neu. We repeatedly isolated a 325-bp cDNA fragment that, as determined by Northern analysis, was expressed at higher levels in anti-p185neu-treated tumor cells but not in cells expressing internalization defective p185neu receptors. This cDNA fragment was identical in amino acid sequence to the recently cloned mouse Tat binding protein-1 (mTBP1), which has 98.4% homology to the HIV tat-binding protein-1 (TBP1). TBP1 mRNA levels were found to be elevated on inhibition of the oncogenic phenotype of transformed cells expressing erbB family receptors. TBP1 overexpression diminished cell proliferation, reduced the ability of the parental cells to form colonies in vitro, and almost completely inhibited transforming efficiency in athymic mice when stably expressed in human tumor cells containing erbB family receptors. Collectively, these results suggest that the attenuation of erbB receptor signaling seems to be associated with activation/induction or recovery of a functional tumor suppressor-like gene, TBP1. Disabling erbB tyrosine kinases by antibodies or by trans-inhibition represents an initial step in triggering a TBP1 pathway.

Alteration of Hormone Levels in Transgenic Tobacco Plants Overexpressing the Rice Homeobox Gene OSH1

The rice (Oryza sativa L.) homeobox gene OSH1 causes morphological alterations when ectopically expressed in transgenic rice, Arabidopsis thaliana, and tobacco (Nicotiana tabacum L.) and is therefore believed to function as a morphological regulator gene. To determine the relationship between OSH1 expression and morphological alterations, we analyzed the changes in hormone levels in transgenic tobacco plants exhibiting abnormal morphology. Levels of the plant hormones indole-3-acetic acid, abscisic acid, gibberellin (GA), and cytokinin (zeatin and trans-zeatin [Z]) were measured in leaves of OSH1-transformed and wild-type tobacco. Altered plant morphology was found to correlate with changes in hormone levels. The more severe the alteration in phenotype of transgenic tobacco, the greater were the changes in endogenous hormone levels. Overall, GA1 and GA4 levels decreased and abscisic acid levels increased compared with wild-type plants. Moreover, in the transformants, Z (active form of cytokinin) levels were higher and the ratio of Z to Z riboside (inactive form) also increased. When GA3 was supplied to the shoot apex of transformants, internode extension was restored and normal leaf morphology was also partially restored. However, such GA3-treated plants still exhibited some morphological abnormalities compared with wild-type plants. Based on these data, we propose the hypothesis that OSH1 affects plant hormone metabolism either directly or indirectly and thereby causes changes in plant development.

Complete sequence of the bithorax complex of Drosophila.

The bithorax complex (BX-C) of Drosophila, one of two complexes that act as master regulators of the body plan of the fly, is included within a sequence of 338,234 bp (SEQ89E). This paper presents the strategy used in sequencing SEQ89E and an analysis of its open reading frames. The BX-C sequence (BXCALL) contains 314,895 bp obtained by deletion of putative genes that are located at each end of SEQ89E and appear to be functionally unrelated to the BX-C. Only 1.4% of BXCALL codes for the three homeodomain-containing proteins of the complex. Principal findings include a putative ABD-A protein (ABD-AII) larger than a previously known ABD-A protein and a putative glucose transporter-like gene (1521 bp) located at or near the bithoraxoid (bxd), infra-abdominal-2 (iab-2) boundary on the opposite strand relative to that of the homeobox-containing genes.

Human acetyl-CoA carboxylase: characterization, molecular cloning, and evidence for two isoforms.

We have cloned and sequenced the cDNA coding for human HepG2 acetyl-CoA carboxylase (ACC; EC 6.4.1.2). The sequence has an open reading frame of 7038 bp that encode 2346 amino acids (M(r), 264,737). The C-terminal 2.6-kb sequence is very different from that recently reported for human ACC (Ha, J., Daniel, S., Kong, I.-S., Park, C.-K., Tae, H.-J. & Kim, K.-H. [1994] Eur. J. Biochem. 219, 297-306). Northern blot analysis revealed that the ACC mRNA is approximately 10 kb in size and that its level varies among the tissues tested. Evidence is presented to show that the human ACC gene is 200-480 kbp in size and maps to chromosome 17q12. We also provide evidence for the presence of another ACC-like gene with similarly sized mRNA but tissue-specific expression different from that of the ACC gene reported herein. That this second ACC-like gene encodes the 280-kDa carboxylase is not ruled out.