Mechanisms regulating the thermal acclimation of dark respiration in snow tussock and ryegrass : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Science in Biochemistry /

Clifford, Veronica R.

January 2007

Thesis (M. Sc.)--University of Canterbury, 2007. / Typescript (photocopy). Includes bibliographical references (leaves 107-118). Also available via the World Wide Web.

Temperature sensing in plants

Sangwan, Veena.

January 2000

No description available.

Protein kinases.

Plant cellular signal transduction.

Mitogens.

Plants -- Effect of temperature on.

Acclimatization (Plants)

Temperature sensing in plants

Sangwan, Veena.

January 2000

It is now well established that cold-triggered calcium influx mediates cold-induced gene expression and development of freezing tolerance (cold acclimation). In this thesis, cold signaling events both upstream and downstream of calcium influx were examined. / First, it was shown that the studies on calcium mediation of cold acclimation in alfalfa cell suspension cultures could be applied to intact seedlings of Arabidopsis. Calcium chelators and channel blockers caused a strong reduction in the cold-induced accumulation of kin1 and kin2 transcripts, suggesting that calcium influx was an essential event during cold signaling and that the source of calcium for this influx was largely the calcium-rich cell wall. Evidence suggesting the involvement of calcium-dependent protein kinases (CDPKs) was also obtained. / Second, the nature of events upstream of calcium influx was explored. For this study, transgenic Brassica napus seedlings possessing both the endogenous cold-inducible BN115 gene and the coding part of beta-glucuronidase (GUS) gene placed under the control of the BN115 promoter were used. Thus cold-activation of the BN115 promoter drove the expression of both BN115 at the transcriptional level and the GUS enzyme activity at the translational level. Cold-activation of BN115 was inhibited by chemicals which cause membrane fluidization, cytoskeletal stabilization and inhibition of Ca2+ influx, and mimicked at 25°C by chemicals causing membrane rigidification, cytoskeletal destabilization and Ca2+ influx. Inhibitors of protein and lipid kinases prevented cold-activation of BN115, but inhibition of protein phosphatases activated BN115 at 25°C. / Third, given the increasing importance of mitogen-activated protein kinases (MAPKs) in signal transduction, the nature of molecular mechanisms that lead to cold-activation of a previously reported MAPK, SAMK, was investigated. During this study, the first plant MAPK activated by heat shock was discovered and named HAMK (Heat-shock-activated MAPK). It was shown that cold-activation of SAMK is mediated by cold-induced membrane rigidification, whereas the heat shock-activation of HAMK occurs through heat shock-induced membrane fluidization. Whereas activation of both SAMK and HAMK is blocked by an actin microfilament stabilizer, it is mimicked at 25°C by chemical destabilizers of microtubules or actin microfilaments. All of these events are inhibited by blocking the influx of extracellular Ca 2+. Cold-activation of SAMK and heat-activation of HAMK was prevented by treatment of cells with inhibitors of CDPKs. Thus, cold and heat shock are sensed by structural changes in the plasma membrane, which transduces the signal via cytoskeletal rearrangements to the opening of calcium channels, leading to Ca2+ influx, activation of CDPKs and activation of distinct MAPK cascades.

Plants -- Effect of temperature on.

Acclimatization (Plants)

Plant cellular signal transduction.

Protein kinases.

Mitogens.

Molecular responses to abiotic stress in Arabidopsis thaliana /

Nylander, Maria.

January 2000

Thesis (doctoral)--Swedish University of Agricultural Sciences, 2000. / Includes bibliographical references.

Potencial morfogenético e carotenóides em tecidos cultivados in vitro de Pothomorphe umbellata L

Borda Yepez, Charlotte Cesty [UNESP]

23 June 2003

Made available in DSpace on 2014-06-11T19:32:40Z (GMT). No. of bitstreams: 0 Previous issue date: 2003-06-23Bitstream added on 2014-06-13T20:23:47Z : No. of bitstreams: 1 bordayepez_cc_me_botfca.pdf: 605083 bytes, checksum: 56a87160ec1d63940d534d9e6a51cff7 (MD5) / O presente trabalho teve como objetivo estabelecer o protocolo de desinfestação de estacas e sernentes e germinação de Pothomorphe umbeilata (L) e adaptar o protocolo de micropropagação de Pothomorphe umbeilata (L), incluindo a produção de calos e organogênese, além de comparar o teor de carotenóides entre calos e plântulas. O experimento foi conduzido no Laboratório de Biotecnologia Vegetal do Departamento de Química e Bioquímica, do Instituto de Biociências da UNESP - Botucatu, SP e o material vegetal (sementes e estacas) foi obtido no município de Adrianópolis-PR. Semente germinadas de P. umbeilata foram inoculadas em diferentes concentrações de BAP (0,5 mg.L ; 1,0 mgL ; 1,5 mg.L) e NAA (0,4 mg.L 0,6 mg.L ; 0,6 mg.L ) respectivamente, visando estimular a produção de calos e dosar o carotenóides. Após 60 dias do cultivo, os calos contendo algumas brotações, foram transferidos para meio de diferenciação das plântulas (GA3 0,1 mg.L , BAP 0,5 mgL ) por um período de 40 dias, para logo serem transferidos para meio de diferenciação de plântulas. Calos (coletados aos 60 dias) e plântulas (coletadas aos 140 dias) foram congelados em nitrogênio líquido e mantidos em freezer a 80°C para posteriores análises de carotenóides. O melhor tratamento para a produção de calos e formação de gemas foi NAA 0.6 mgL em combinação com BAP 10 mg.L . Nas plântulas sem adição de reguladores vegetais foi encontrada uma maior concentração de carotenõides, em comparação aos calos. / The present research aimed at establishing a protocol of stalks and seed desinfectation, and seed germination of Pothomorphe umbeilata (L.). A protocol of micropropagation including the induction of callus formation and organogenesis was adapted. Besides, it was compared the carotenoids quantity between Porhomorphe umbeliata calius and plantlets. This experiment was carried out iii Biotechnology Vegetal Laboratory of the Chernistr and Biochemistry Department at the Instituto de Biociências of Universidade Estadual Paulista, Botucatu campus. The vegetal matenal (seed and stalks) was obtained from Adranópolis - PR. Pothomorphe umbeilata germinated seeds were inoculated in different concentrations of BAP (0,5 mg.L-l; 1,0 mg.L.-l; 1,5 mg.L-l) and NAA (0,4 mg.L-l; 0,6 mg.L-1; 0,6 mg.L-l) respectively, in order to stimulate calius induction and increase quantity of earotenoids. Afler 60 days, calius which contained shoots were inoculated in plantlets diferenciation medium GA3 0,1 mg.L4, BAP 0,5 mg.U ) during 40 days and transferred to plantlets growth medium. Plantlets were acclimatized Calius collected after 60 days and plantlets were collected afier 140 days. There were frozen in liquid nitrogen and maintained in freezer 80°C to be used in further carotenoids test. The best treatment for callus production and shoots elongation was NAA 0.6 mg.L in association with BAP 1.0 mg.L . The higher carotenoids coneentration was in plantlets without growth regulators, compared with calius.

Bioquímica

Carotenoides

Aclimatação (Plantas)

Biochemistry

Carotenoids

Plant tissue culture

Acclimatization (Plants)

Changes in freezing tolerance, abscisic acid concentraion, and gene expression during cold acclimation of Acer rubrum fine roots /

Borden, Melissa L.

01 January 1999

No description available.

Abscisic acid

Acclimatization Plants

Plant gene expression

Red maple Frost resistance

Roots Botany.

Potencial morfogenético e carotenóides em tecidos cultivados in vitro de Pothomorphe umbellata L. /

Borda Yepez, Charlotte Cesty, 1976-

January 2003

Orientador: Giuseppina Pace Pereira Lima / Banca: Eny Iochevet Segal Floh / Banca: João Domingos Rodrigues / Resumo: O presente trabalho teve como objetivo estabelecer o protocolo de desinfestação de estacas e sernentes e germinação de Pothomorphe umbeilata (L) e adaptar o protocolo de micropropagação de Pothomorphe umbeilata (L), incluindo a produção de calos e organogênese, além de comparar o teor de carotenóides entre calos e plântulas. O experimento foi conduzido no Laboratório de Biotecnologia Vegetal do Departamento de Química e Bioquímica, do Instituto de Biociências da UNESP - Botucatu, SP e o material vegetal (sementes e estacas) foi obtido no município de Adrianópolis-PR. Semente germinadas de P. umbeilata foram inoculadas em diferentes concentrações de BAP (0,5 mg.L’; 1,0 mgL’; 1,5 mg.L) e NAA (0,4 mg.L 0,6 mg.L’; 0,6 mg.L’) respectivamente, visando estimular a produção de calos e dosar o carotenóides. Após 60 dias do cultivo, os calos contendo algumas brotações, foram transferidos para meio de diferenciação das plântulas (GA3 0,1 mg.L’, BAP 0,5 mgL’) por um período de 40 dias, para logo serem transferidos para meio de diferenciação de plântulas. Calos (coletados aos 60 dias) e plântulas (coletadas aos 140 dias) foram congelados em nitrogênio líquido e mantidos em freezer a 80°C para posteriores análises de carotenóides. O melhor tratamento para a produção de calos e formação de gemas foi NAA 0.6 mgL’ em combinação com BAP 10 mg.L’. Nas plântulas sem adição de reguladores vegetais foi encontrada uma maior concentração de carotenõides, em comparação aos calos. / Abstract: The present research aimed at establishing a protocol of stalks and seed desinfectation, and seed germination of Pothomorphe umbeilata (L.). A protocol of micropropagation including the induction of callus formation and organogenesis was adapted. Besides, it was compared the carotenoids quantity between Porhomorphe umbeliata calius and plantlets. This experiment was carried out iii Biotechnology Vegetal Laboratory of the Chernistr and Biochemistry Department at the Instituto de Biociências of Universidade Estadual Paulista, Botucatu campus. The vegetal matenal (seed and stalks) was obtained from Adranópolis - PR. Pothomorphe umbeilata germinated seeds were inoculated in different concentrations of BAP (0,5 mg.L-l; 1,0 mg.L.-l; 1,5 mg.L-l) and NAA (0,4 mg.L-l; 0,6 mg.L-1; 0,6 mg.L-l) respectively, in order to stimulate calius induction and increase quantity of earotenoids. Afler 60 days, calius which contained shoots were inoculated in plantlets diferenciation medium GA3 0,1 mg.L4, BAP 0,5 mg.U’) during 40 days and transferred to plantlets growth medium. Plantlets were acclimatized Calius collected after 60 days and plantlets were collected afier 140 days. There were frozen in liquid nitrogen and maintained in freezer 80°C to be used in further carotenoids test. The best treatment for callus production and shoots elongation was NAA 0.6 mg.L’ in association with BAP 1.0 mg.L’. The higher carotenoids coneentration was in plantlets without growth regulators, compared with calius. / Doutor

Bioquímica.

Carotenoides.

Aclimatação (Plantas)

Biochemistry. eng

Carotenoids. eng

Plant tissue culture. eng

Acclimatization (Plants) eng