Composição e abundância das espécies de anfíbios e répteis em uma paisagem fragmentada de Mata Atlântica no Estado do Rio de Janeiro

Neste estudo, procuramos avaliar a composição e abundância de espécies de anfíbios e répteis em uma paisagem fragmentada de Mata Atlântica, no município de Cachoeiras de Macacu, Estado do Rio de Janeiro. Amostramos a herpetofauna da região na área contínua de floresta da Reserva Ecológica de Guapiaçu (REGUA), em 12 fragmentos do entorno com tamanhos e graus de isolamento diferentes, e áreas de pasto (matriz). Utilizamos para amostragem destes animais as metodologias de buscas ativas visuais e armadilhas de interceptação e queda, além de encontros ocasionais. No total foram registradas 55 espécies de anfíbios anuros pertencentes a 12 famílias e entre os répteis foram registradas 26 espécies, sendo uma espécie de anfisbena, uma de jacaré, nove de lagartos e 15 de serpentes. Para os anfíbios, houve uma dominância de espécies da família Hylidae, que representaram mais da metade do total de espécies encontradas no estudo. Já entre os répteis, houve uma predominância de espécies de serpentes da família Dipsadidae. Considerando apenas os registros feitos pelas metodologias empregadas, a área contínua de floresta da REGUA possui uma riqueza de espécies de anfíbios (N = 30) e de lagartos (N = 4) menor do que o conjunto de fragmentos (N = 36 e N = 8), mas superior ao que foi encontrado na matriz (N = 25 e N = 1). Entretanto, para os anfíbios, mais de um terço das espécies (N = 11) que ocorreu na mata contínua não ocorreu nos fragmentos ou na matriz, o que sugere que estas espécies podem ser mais sensíveis a alterações do hábitat. A maior riqueza de espécies encontrada no conjunto de fragmentos pode ser parcialmente explicada pelo fato de muitas espécies tanto de anfíbios quanto de lagartos que são típicas de áreas abertas, terem sua ocorrência favorecida neste tipo de condição de ambiente relativamente menos fechado dos fragmentos. Quando avaliamos o efeito de métricas da paisagem, observamos diferentes respostas entre os anfíbios e os lagartos. Enquanto para os anfíbios houve uma tendência de fragmentos mais distantes terem uma menor riqueza de espécies e de modos reprodutivos associados a estas espécies, para os lagartos a área dos fragmentos parece ser uma importante variável na estruturação das comunidades. Entretanto, por particularidades das características fisiológicas e ecológicas de anfíbios e lagartos, é possível que outros fatores expliquem a distribuição diferenciada das espécies. De forma geral, as áreas de matriz amostradas pareceram ser hostis a espécies florestais tanto de anfíbios quanto de lagartos. Além disso, para anfíbios, a presença de ambientes reprodutivos pode ser fator crucial para a ocorrência de algumas espécies. De forma similar ao encontrado em outros estudos, para a manutenção da diversidade de anfíbios e lagartos na paisagem fragmentada tratada neste estudo é necessário preservar o grande bloco florestal e aumentar a conectividade deste com os fragmentos, o que poderia permitir a área contínua servir de área-fonte de dispersores para os remanescentes florestais.

DNA-mediated oxidation of transcription factor p53

Transcription factor p53 is the most commonly altered gene in human cancer. As a redox-active protein in direct contact with DNA, p53 can directly sense oxidative stress through DNA-mediated charge transport. Electron hole transport occurs with a shallow distance dependence over long distances through the π-stacked DNA bases, leading to the oxidation and dissociation of DNA-bound p53. The extent of p53 dissociation depends upon the redox potential of the response element DNA in direct contact with each p53 monomer. The DNA sequence dependence of p53 oxidative dissociation was examined by electrophoretic mobility shift assays using radiolabeled oligonucleotides containing both synthetic and human p53 response elements with an appended anthraquinone photooxidant. Greater p53 dissociation is observed from DNA sequences containing low redox potential purine regions, particularly guanine triplets, within the p53 response element. Using denaturing polyacrylamide gel electrophoresis of irradiated anthraquinone-modified DNA, the DNA damage sites, which correspond to locations of preferred electron hole localization, were determined. The resulting DNA damage preferentially localizes to guanine doublets and triplets within the response element. Oxidative DNA damage is inhibited in the presence of p53, however, only at DNA sites within the response element, and therefore in direct contact with p53. From these data, predictions about the sensitivity of human p53-binding sites to oxidative stress, as well as possible biological implications, have been made. On the basis of our data, the guanine pattern within the purine region of each p53-binding site determines the response of p53 to DNA-mediated oxidation, yielding for some sequences the oxidative dissociation of p53 from a distance and thereby providing another potential role for DNA charge transport chemistry within the cell.

To determine whether the change in p53 response element occupancy observed in vitro also correlates in cellulo, chromatin immunoprecipition (ChIP) and quantitative PCR (qPCR) were used to directly quantify p53 binding to certain response elements in HCT116N cells. The HCT116N cells containing a wild type p53 were treated with the photooxidant [Rh(phi)2bpy]³⁺, Nutlin-3 to upregulate p53, and subsequently irradiated to induce oxidative genomic stress. To covalently tether p53 interacting with DNA, the cells were fixed with disuccinimidyl glutarate and formaldehyde. The nuclei of the harvested cells were isolated, sonicated, and immunoprecipitated using magnetic beads conjugated with a monoclonal p53 antibody. The purified immounoprecipiated DNA was then quantified via qPCR and genomic sequencing. Overall, the ChIP results were significantly varied over ten experimental trials, but one trend is observed overall: greater variation of p53 occupancy is observed in response elements from which oxidative dissociation would be expected, while significantly less change in p53 occupancy occurs for response elements from which oxidative dissociation would not be anticipated.

The chemical oxidation of transcription factor p53 via DNA CT was also investigated with respect to the protein at the amino acid level. Transcription factor p53 plays a critical role in the cellular response to stress stimuli, which may be modulated through the redox modulation of conserved cysteine residues within the DNA-binding domain. Residues within p53 that enable oxidative dissociation are herein investigated. Of the 8 mutants studied by electrophoretic mobility shift assay (EMSA), only the C275S mutation significantly decreased the protein affinity (KD) for the Gadd45 response element. EMSA assays of p53 oxidative dissociation promoted by photoexcitation of anthraquinone-tethered Gadd45 oligonucleotides were used to determine the influence of p53 mutations on oxidative dissociation; mutation to C275S severely attenuates oxidative dissociation while C277S substantially attenuates dissociation. Differential thiol labeling was used to determine the oxidation states of cysteine residues within p53 after DNA-mediated oxidation. Reduced cysteines were iodoacetamide labeled, while oxidized cysteines participating in disulfide bonds were ¹³C₂D₂-iodoacetamide labeled. Intensities of respective iodoacetamide-modified peptide fragments were analyzed using a QTRAP 6500 LC-MS/MS system, quantified with Skyline, and directly compared. A distinct shift in peptide labeling toward ¹³C₂D₂-iodoacetamide labeled cysteines is observed in oxidized samples as compared to the respective controls. All of the observable cysteine residues trend toward the heavy label under conditions of DNA CT, indicating the formation of multiple disulfide bonds potentially among the C124, C135, C141, C182, C275, and C277. Based on these data it is proposed that disulfide formation involving C275 is critical for inducing oxidative dissociation of p53 from DNA.

Optimized condition for etching fused-silica phase gratings with inductively coupled plasma technology

Polymer deposition is a serious problem associated with the etching of fused silica by use of inductively coupled plasma (ICP) technology, and it usually prevents further etching. We report an optimized etching condition under which no polymer deposition will occur for etching fused silica with ICP technology. Under the optimized etching condition, surfaces of the fabricated fused silica gratings are smooth and clean. Etch rate of fused silica is relatively high, and it demonstrates a linear relation between etched depth and working time. Results of the diffraction of gratings fabricated under the optimized etching condition match theoretical results well. (c) 2005 Optical Society of America.