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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Identification and characterization of a peptide toxin inhibitor of ClC-2 chloride channels

Thompson, Christopher Hal 05 November 2008 (has links)
ClC proteins encompass a large protein family consisting of both voltage-dependent chloride channels and chloride/proton exchangers that are found in both eukaryotes and prokaryotes. These proteins mediate Cl- flux across the plasma membrane or intracellular membranes of many cell types including neurons, epithelial cells, and skeletal muscle in mammals. Mutations in genes encoding these channels also contribute to several human diseases. The mechanism of ion conduction through ClC proteins is becoming better defined, largely due to the availability of a crystal structure of a bacterial ClC transporter. Because crystal structures only capture a snapshot a protein in a single conformation, however, the large conformational changes associated with channel opening and closing have remained largely undefined. In the cation channel field, ion conduction and conformational changes that occur during channel gating have been studied using peptide toxin inhibitors isolated from animal venoms. However, only one peptide toxin inhibitor of a chloride channel of known molecular identity has ever been identified. Georgia anion toxin 1 (GaTx1), inhibits the CFTR chloride channel, which is unrelated to ClC proteins on the levels of both three dimensional structure and primary sequence. Here, we describe the characterization of the inhibitory activity of Leiurus quinquestriatus hebraeus scorpion venom against the ClC-2 chloride channel. We found that the venom from this scorpion contains a peptide component that is capable of inhibiting the ClC-2 chloride channel. This component was isolated using standard chromatography techniques, and found that the active component is a 3.2 kDa peptide composed of 29 amino acids. We showed that the active toxin, Georgia anion toxin 2 (GaTx2), interacts with ClC-2 with an affinity in the picomolar range, and appears to slow channel opening. Finally, GaTx2 is not capable of inhibiting other members of the ClC protein family, other major chloride channels, or voltage-gated potassium channels. This toxin will provide a new tool for structure/function studies of ClC-2, and will hopefully serve as only the first toxin inhibitor available for this protein family.
2

Clonagem, expressão e estudo de alguns cDNAs codificando proteínas estruturalmente relacionadas às alfa neurotoxinas da glândula de veneno da cobra coral Micrurus corallinus (Serpentes, Elapidae). / Cloning, expression and study of some cDNAs codifying proteins structurally related to the alpha neurotoxins of the venom gland from coral snake Micrurus corallinus (Serpentes, Elapidae).

Silva, Alvaro Rossan de Brandão Prieto da 28 January 2002 (has links)
De uma biblioteca de cDNA da glândula de veneno da cobra coral brasileira Micrurus corallinus foi isolada uma seqüência denominada NXH8. Esta seqüência de cDNA apresenta similaridade estrutural com a família de toxinas de serpentes em 'três dígitos' ricas em pontes dissulfeto. A subclasse melhor conhecida nesta família, são as alfa neurotoxinas. Uma outra seqüência distinta, denominada NXH1 e suas isoformas NXH3 e NXH7, foram isoladas anteriormente. Pertencem à mesma família de toxinas e estão presentes na mesma biblioteca. Alguns resultados da caracterização de NXH1, são utilizados neste estudo, em comparação com NXH8. Algumas características estruturais tornam a seqüência NXH8 diferente da classe usual das alfa neurotoxinas, vindo a constituir possivelmente uma nova subclasse da família. A proteína NXH8 foi expressa em diversos vetores de expressão em Escherichia coli. A proteína recombinante, expressa pelo vetor pRSET C - NXH8 foi utilizada para imunizar camundongos. O soro contra NXH8, assim como o soro anti - elapídico do Instituto Butantan, reconhece a toxina recombinante em ELISA e Western blot. O soro anti - NXH8 detecta apenas uma banda do veneno de M. corallinus em Western blot, mas apresenta reatividade cruzada com componentes do veneno de alguns elapídeos neotropicais e do velho mundo. Em contraste, dados anteriores demonstraram que o soro anti - NXH1 é específico para um componente único do veneno de M. corallinus. O veneno de M. corallinus tem alfa neurotoxinas que bloqueiam o receptor pós - sináptico nicotínico de acetilcolina nas membranas do músculo esquelético de ratos. O soro anti - NXH8 é capaz de impedir a ligação de componentes do veneno bruto a esses receptores. Já o soro contra NXH1 não apresenta a mesma capacidade inibitória. Isto indica que NXH8 tem afinidade pelo receptor nicotínico muscular de acetilcolina, ou que NXH8 compartilha de um epítopo neutralizante presente também nas alfa neurotoxinas do veneno da cobra coral M. corallinus. / A cDNA sequence encoding a putative new toxin, NXH8, was isolated from the cDNA library constructed from the venom gland of the Brazilian coral snake, Micrurus corallinus. This sequence shows a structural similarity with the snake toxin family known as 'three-fingered' toxins, a family of toxins with approximately 60 to 70 amino acids and usually 4 to 5 disulfide bonds. Irrespective of whether these proteins are functionally different, their amino acid sequences can be readily aligned, using 8 half-cystines as conserved elements, suggesting the presence of common structural features. The best known subclass of three-finger-type toxins are the curaremimetic toxins, also called alpha-neurotoxins, found in most venoms from Elapid and Sea snakes. Another toxin with a distinct sequence, known as NXH1 and its isoforms NXH3 and NXH7 had been previously isolated. They belong to the same family of toxins and were characterized from the same cDNA library. In the present study, a comparative biochemical, pharmacological and structural analyses of NXH1 and NXH8 were described. Few structural characteristics of NXH8 seem to indicate that it differs from the usual class of alpha – neurotoxins, belonging, possibly, to a new subclass of 'three-finger' toxins. The NXH8 protein was expressed in various E. coli expression vectors and the resulted recombinant toxin from pRSETC-NXH8 plasmid was used as a "toxoid" for mice immunization. The anti - NXH8 sera, as well as the anti – elapid sera from the Butantan Institute, recognized the recombinant toxin by both ELISA and Western blot assays. In contrast to the claim that anti - NXH1 sera is specific to one component of M. corallinus’s venom, the anti – NXH8 sera show cross reactivity to venom of some Neotropical and Old World elapids. The M. corallinus's venom contains alpha – toxins, which inhibit post-synaptic nicotinic acetylcholine receptor of neonatal rat skeletal muscle membrane. The anti - NXH8 serum was capable of blocking the binding of the components of the crude venom to these receptors. In contrast, the anti – NXH1 serum did not show this inhibitory effect. This indicates that either NXH8 presents affinity for muscular nicotinic acetylcholine receptor or it shares a neutralizing epitope also present in M. corallinus’s alpha – neurotoxins.
3

Clonagem, expressão e estudo de alguns cDNAs codificando proteínas estruturalmente relacionadas às alfa neurotoxinas da glândula de veneno da cobra coral Micrurus corallinus (Serpentes, Elapidae). / Cloning, expression and study of some cDNAs codifying proteins structurally related to the alpha neurotoxins of the venom gland from coral snake Micrurus corallinus (Serpentes, Elapidae).

Alvaro Rossan de Brandão Prieto da Silva 28 January 2002 (has links)
De uma biblioteca de cDNA da glândula de veneno da cobra coral brasileira Micrurus corallinus foi isolada uma seqüência denominada NXH8. Esta seqüência de cDNA apresenta similaridade estrutural com a família de toxinas de serpentes em 'três dígitos' ricas em pontes dissulfeto. A subclasse melhor conhecida nesta família, são as alfa neurotoxinas. Uma outra seqüência distinta, denominada NXH1 e suas isoformas NXH3 e NXH7, foram isoladas anteriormente. Pertencem à mesma família de toxinas e estão presentes na mesma biblioteca. Alguns resultados da caracterização de NXH1, são utilizados neste estudo, em comparação com NXH8. Algumas características estruturais tornam a seqüência NXH8 diferente da classe usual das alfa neurotoxinas, vindo a constituir possivelmente uma nova subclasse da família. A proteína NXH8 foi expressa em diversos vetores de expressão em Escherichia coli. A proteína recombinante, expressa pelo vetor pRSET C - NXH8 foi utilizada para imunizar camundongos. O soro contra NXH8, assim como o soro anti - elapídico do Instituto Butantan, reconhece a toxina recombinante em ELISA e Western blot. O soro anti - NXH8 detecta apenas uma banda do veneno de M. corallinus em Western blot, mas apresenta reatividade cruzada com componentes do veneno de alguns elapídeos neotropicais e do velho mundo. Em contraste, dados anteriores demonstraram que o soro anti - NXH1 é específico para um componente único do veneno de M. corallinus. O veneno de M. corallinus tem alfa neurotoxinas que bloqueiam o receptor pós - sináptico nicotínico de acetilcolina nas membranas do músculo esquelético de ratos. O soro anti - NXH8 é capaz de impedir a ligação de componentes do veneno bruto a esses receptores. Já o soro contra NXH1 não apresenta a mesma capacidade inibitória. Isto indica que NXH8 tem afinidade pelo receptor nicotínico muscular de acetilcolina, ou que NXH8 compartilha de um epítopo neutralizante presente também nas alfa neurotoxinas do veneno da cobra coral M. corallinus. / A cDNA sequence encoding a putative new toxin, NXH8, was isolated from the cDNA library constructed from the venom gland of the Brazilian coral snake, Micrurus corallinus. This sequence shows a structural similarity with the snake toxin family known as 'three-fingered' toxins, a family of toxins with approximately 60 to 70 amino acids and usually 4 to 5 disulfide bonds. Irrespective of whether these proteins are functionally different, their amino acid sequences can be readily aligned, using 8 half-cystines as conserved elements, suggesting the presence of common structural features. The best known subclass of three-finger-type toxins are the curaremimetic toxins, also called alpha-neurotoxins, found in most venoms from Elapid and Sea snakes. Another toxin with a distinct sequence, known as NXH1 and its isoforms NXH3 and NXH7 had been previously isolated. They belong to the same family of toxins and were characterized from the same cDNA library. In the present study, a comparative biochemical, pharmacological and structural analyses of NXH1 and NXH8 were described. Few structural characteristics of NXH8 seem to indicate that it differs from the usual class of alpha – neurotoxins, belonging, possibly, to a new subclass of 'three-finger' toxins. The NXH8 protein was expressed in various E. coli expression vectors and the resulted recombinant toxin from pRSETC-NXH8 plasmid was used as a "toxoid" for mice immunization. The anti - NXH8 sera, as well as the anti – elapid sera from the Butantan Institute, recognized the recombinant toxin by both ELISA and Western blot assays. In contrast to the claim that anti - NXH1 sera is specific to one component of M. corallinus’s venom, the anti – NXH8 sera show cross reactivity to venom of some Neotropical and Old World elapids. The M. corallinus's venom contains alpha – toxins, which inhibit post-synaptic nicotinic acetylcholine receptor of neonatal rat skeletal muscle membrane. The anti - NXH8 serum was capable of blocking the binding of the components of the crude venom to these receptors. In contrast, the anti – NXH1 serum did not show this inhibitory effect. This indicates that either NXH8 presents affinity for muscular nicotinic acetylcholine receptor or it shares a neutralizing epitope also present in M. corallinus’s alpha – neurotoxins.

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