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Relación estructura-función de cirsina, una proteasa aspártica de Cirsium vulgare, y compuestos peptídicos derivados con actividad biológicaLufrano, Daniela 29 August 2013 (has links)
Las proteasas aspárticas típicas de plantas (o tipo pepsina) han sido escasamente estudiadas en comparación con sus contrapartes de origen no vegetal. Una excepción a esta afirmación, lo constituyen las cardosinas (Cynara cardunculus) usadas en la manufactura de quesos y la fitepsina (Hordeum vulgare), que al día de hoy continúa siendo una de las pocas proteasas de esta clase caracterizada estructuralmente y por tanto, el modelo utilizado en esta área.
Una de las principales razones por las cuales las PAs de plantas no han sido objeto de mayor cantidad de estudios es su escasa abundancia natural. Ésto resulta especialmente cierto en el caso de sus precursores, los cuales contienen el llamativo dominio PSI (inserto específico de plantas), único entre las PAs.
En un intento por identificar nuevas fuentes vegetales de PAs típicas, extractos de flores de varias especies pertenecientes a la familia Asteraceae que crecen en Argentina fueron probados en ensayos de coagulación de leche. Una de las especies que mostró esta capacidad coagulante sugiriendo por tanto la presencia de PAs, fue Cirsium vulgare -comúnmente conocido como cardo negro y considerada una maleza en los campos de nuestra región.
Fundamentalmente debido a su amplia disponibilidad y a la ausencia de estudios reportados sobre sus PAs, se decidió emplear esta especie de la familia Asteraceae como material vegetal.
En este contexto, el presente trabajo intenta generar un aporte al conocimiento de las PAs de origen vegetal mediante el estudio de procirsina, una proenzima de C. vulgare perteneciente a la familia A1, y del dominio PSI contenido en su secuencia.
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Multi-Species Interactions in Weed Biocontrol: Carduus nutans as a Case StudyGroenteman, Ronny January 2008 (has links)
Classical biocontrol systems are sometimes treated as an exercise in community assembly. As such, they include multiple species interactions. This thesis explores multi-species aspects in classical weed biocontrol, using thistles as a case study.
The abundance, phenology and impact of three biocontrol agents were followed on their target host, Carduus nutans L. and are described, for the first time in New Zealand for two of them (Urophora solstitialis L. and Trichosirocalus horridus sensu (Panzer)).
Composition in New Zealand of the recently revised Trichosirocalus weevil species complex was surveyed nation-wide. One species only was found, albeit exhibiting a wider host range than anticipated from the published revision.
Interspecific interactions and individual and combined effect of multiple biocontrol agents on C. nutans were tested in cage setups; the effect on the weed population was then estimated by manipulations of an existing matrix population model for this weed in New Zealand. The potentially better seed predator (U. solstitialis) was outcompeted by the worse seed predator (Rhinocyllus conicus (Froehlich)) which has similar niche preference. Urophora solstitialis was also adversely impacted by the crown-root feeder (T. horridus). Trichosirocalus horridus affected C. nutans survival, even at the medium density used, and significantly reduced potential seed production by 33%; in field densities, T. horridus is likely to affect C. nutans even more. Urophora solstitialis was estimated to destroy about 28% of the remaining seed in the absence of the other agents, and about 17% in the presence of T. horridus. The estimated combined effect of T. horridus and U. solstitalis on C. nutans population growth rate was greater than the effect of either agent alone.
In the face of growing weed invasions, multiple thistle species were used to test ‘multi-targeting’ as a novel approach to target groups of ‘sleeper weeds’. Both in a field experiment and in a field survey, the seed predator R. conicus was found to attack and damage some ‘non-target’ thistle species more in the presence of the target species (C. nutans) than in its absence; however, levels of attack on non-target species were always modest.
The ultimate goal of biocontrol is to reduce weed populations. A field survey revealed that current population densities of multiple thistle species in Canterbury are not obviously lower than in the mid 1980s, when only R. conicus was present. This may be because successful biocontrol has reduced the management input required to maintain the same thistle density.
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Multi-Species Interactions in Weed Biocontrol: Carduus nutans as a Case StudyGroenteman, Ronny January 2008 (has links)
Classical biocontrol systems are sometimes treated as an exercise in community assembly. As such, they include multiple species interactions. This thesis explores multi-species aspects in classical weed biocontrol, using thistles as a case study. The abundance, phenology and impact of three biocontrol agents were followed on their target host, Carduus nutans L. and are described, for the first time in New Zealand for two of them (Urophora solstitialis L. and Trichosirocalus horridus sensu (Panzer)). Composition in New Zealand of the recently revised Trichosirocalus weevil species complex was surveyed nation-wide. One species only was found, albeit exhibiting a wider host range than anticipated from the published revision. Interspecific interactions and individual and combined effect of multiple biocontrol agents on C. nutans were tested in cage setups; the effect on the weed population was then estimated by manipulations of an existing matrix population model for this weed in New Zealand. The potentially better seed predator (U. solstitialis) was outcompeted by the worse seed predator (Rhinocyllus conicus (Froehlich)) which has similar niche preference. Urophora solstitialis was also adversely impacted by the crown-root feeder (T. horridus). Trichosirocalus horridus affected C. nutans survival, even at the medium density used, and significantly reduced potential seed production by 33%; in field densities, T. horridus is likely to affect C. nutans even more. Urophora solstitialis was estimated to destroy about 28% of the remaining seed in the absence of the other agents, and about 17% in the presence of T. horridus. The estimated combined effect of T. horridus and U. solstitalis on C. nutans population growth rate was greater than the effect of either agent alone. In the face of growing weed invasions, multiple thistle species were used to test ‘multi-targeting’ as a novel approach to target groups of ‘sleeper weeds’. Both in a field experiment and in a field survey, the seed predator R. conicus was found to attack and damage some ‘non-target’ thistle species more in the presence of the target species (C. nutans) than in its absence; however, levels of attack on non-target species were always modest. The ultimate goal of biocontrol is to reduce weed populations. A field survey revealed that current population densities of multiple thistle species in Canterbury are not obviously lower than in the mid 1980s, when only R. conicus was present. This may be because successful biocontrol has reduced the management input required to maintain the same thistle density.
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