Design of polymer motifs for nucleic acid recognition and assembly stabilization

Zhou, Zhun

15 October 2015

No description available.

Chemistry

polymer

drug delivery

assembly

nucleic acid

polymer-nucleic acid hybridization

RAFT polymeriztion

Analysis of viral and cellular gene expression patterns in cells latently infected with EBV by suppression subtractive hybridization /

Kiss, Csaba,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.

Pesquisa da amplificação e/ou deleção genica atraves da tecnica de hibridização genomica comparativa (CGH) e da leção dos genes P53 e RB1 atraves da tecnica de hibridação in situ fluorescente (FISH) no tecido do tumor de crianças e adolescentes com ost / Genes amplfiication and or deletions determines by CGH technique, together with P53 and RB1 analysis by FISH in pediatric

Aguiar, Simone dos Santos

04 July 2006

Orientador: Silvia Regina Brandalise / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciencias Medicas / Made available in DSpace on 2018-08-06T21:43:20Z (GMT). No. of bitstreams: 1 Aguiar_SimonedosSantos_D.pdf: 43958145 bytes, checksum: b9dafbbd99ad0e567b3c1f03a0c7b37e (MD5) Previous issue date: 2006 / Resumo: Introdução Os osteossarcomas (OS) são tumores agressivos, primários de osso, com prognóstico reservado. As deleções dos genes supressores de tumor, RBl e P53, localizados nos cromossomos 13 e 17 respectivamente, são freqüentemente encontradas neste tipo de tumor. As alterações citogenéticas encontradas nos OS são de alta complexidade, porém nenhuma delas é recorrente, não podendo caracterizá-lo. A técnica da Hibridização Genômica Comparativa (CGH) é uma ferramenta muito precisa para o estudo das deleções e amplificações gênicas ocorridas neste tumor. Materiais e Métodos. Tecido tumoral de 41 crianças com OS foi analisado pela técnica de CGH para pesquisar possíveis ganhos e/ou perdas gênicas . A técnica da Hibridização In Situ Fluorescente (FISH) foi realizada para estudar as deleções dos genes P53 e RBl. Vinte e quatro pacientes eram do sexo feminino e 17 do sexo masculino, com mediana de 12 anos e 4 meses. Resultados. As anormalidades cromossômicas observadas com a técnica de CGH foram diversas e variadas, especialmente ganhos nos cromossomos lp, 2p, 3q, 5q,5p e 6p e, perdas nos cromossomos 14q (50% no - 14q 11.2), 15q e 16p. Alto índice de perdas foi observado no cromossomo 21 (26 de 41 casos; p=0,008), sendo a região mais freqüentemente afetada a 21ql 1.2. Com relação ao estudo dos supressores tumorais, a deleção do P53 ocorreu em 68,3% dos casos (p=0,02) e do RBl em 87,5% dos casos (p=0,000001). Conclusão. Apesar de ambos supressores (PS3 e RBl) estarem deletados na maioria dos pacientes, este evento parece não estar associado ao prognóstico. Anormalidades ainda não reportadas presentes no cromossomo 21 nos OS pediátricos, sugerem que a seqüência mapeada nesta região cromossômica possa estar envolvida na patogênese deste tumor / Abstract: Background. Osteosarcomas (OS) are aggressive bone tumors and often have a poor prognosis. It is already known that abnormalities in chromosomes 13 and 17 are frequently observed in OS patients, being also expected a deletion of RBI and P53 genes. The tumors exhibit karyotypes with a high degree of complexity, that has made it difficult to determine if any recurrent chromosomal aberrations could characterize OS. To address inherent difficulties associated with classical cytogenetic analysis, comparative genomic hybridization (CGH) has been applied to OS tissue. Patients and Methods. Forty one pediatric OS specimens were analyzed by CGH techniques, and the expression of RBI and P53 were analyzed by FISH . Twenty four patients were girls and 17 boys. Median age was 12 years and 4 months.Results. Chromosomal abnormalities were highly diverse and variable specially gains in chromosome lp, 2p, 3q, 5q , 5p and 6p and losses in chromosome 14q (50% in - 14q 11.2), 15q and 16p. High level of losses in chromosome 21 were present (26 of 41 cases; p-0,008), being 21 q 11.2 region the most frequent one. Concerning about genes expression, P53 is deleted in 68,3% of the cases (p=0,02) and RBI in 87,5% (p=0,000001) .Conclusion. Although both oncogenes (P53 and RBI) are deleted in OS population, it remains impossible to determine if this abnormality is a prognostic factor. These new and unreported findings in chromosome 21 of pediatric OS tumors, suggest that specific sequences mapping these chromosomal regions, would likely to play a role in the development of OS / Doutorado / Pediatria / Mestre em Saude da Criança e do Adolescente

Genes P53

Osteossarcoma - Cirurgia

Ossos - Doenças

Crianças

Ácidos nucleicos - Hibridação

Genes p53

Surgery, osteossarcoma

Bones - Diseases

Children

Nucleic acid hybridization

Single-Molecule Imaging Reveals that Argonaute Re-Shapes the Properties of its Nucleic Acid Guides: A Dissertation

Salomon, William E.

07 December 2015

Small RNA silencing pathways regulate development, viral defense, and genomic integrity in all kingdoms of life. An Argonaute (Ago) protein, guided by a tightly bound, small RNA or DNA, lies at the core of these pathways. Argonaute uses its small RNA or DNA to find its target sequences, which it either cleaves or stably binds, acting as a binding scaffold for other proteins. We used Co-localization Single-Molecule Spectroscopy (CoSMoS) to analyze target binding and cleavage by Ago and its guide. We find that both eukaryotic and prokaryotic Argonaute proteins re-shape the fundamental properties of RNA:RNA, RNA:DNA, and DNA:DNA hybridization: a small RNA or DNA bound to Argonaute as a guide no longer follows the well-established rules by which oligonucleotides find, bind, and dissociate from complementary nucleic acid sequences. Counter to the rules of nucleic acid hybridization alone, we find that mouse AGO2 and its guide bind to microRNA targets 17,000 times tighter than the guide without Argonaute. Moreover, AGO2 can distinguish between microRNA-like targets that make seven base pairs with the guide and the products of cleavage, which bind via nine base pairs: AGO2 leaves the cleavage products faster, even though they pair more extensively. This thesis presents a detailed kinetic interrogation of microRNA and RNA interference pathways. We discovered sub-domains within the previously defined functional domains created by Argonaute and its bound DNA or RNA guide. These sub-domains have features that no longer conform to the well-established properties of unbound oligonucleotides. It is by re-writing the rules for nucleic acid hybridization that Argonautes allow oligonucleotides to serve as specificity determinants with thermodynamic and kinetic properties more typical of RNA-binding proteins than that of RNA or DNA. Taken altogether, these studies further our understanding about the biology of small RNA silencing pathways and may serve to guide future work related to all RNA-guided endonucleases.

Small Interfering RNA

Argonaute Proteins

RNA Interference

Drosophila Proteins

Nucleic Acid Hybridization

MicroRNAs

Molecular Imaging

Dissertations, UMMS

RNA, Small Interfering

Amino Acids, Peptides, and Proteins

Biochemistry

Molecular Biology