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Studies towards the synthesis of photochromic azasugars as glycosidase inhibitorsRanzinger, Gerlinde January 1999 (has links)
No description available.
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The Photoregulation of Phenylpropnaoid Metabolism and Amino Acid Accumulation in Triticum Aestivum (Var. Fremont)Guerra, Daniel J. 01 May 1983 (has links)
Wheat (Triticum aestivum L.) grown in controlled environments with a 24-hour photoperiod was analyzed for phenylpropanoid and amino acid metabolites. Discrete spectral environments, including a metal halide, high-pressure sodium and low-pressure sodium lamps, provided both photosynthetically active radiation and phenylpropanoid inducing fluences of light . A greenhouse spectral environment supplemented with fluorescent lamps was also used to culture wheat . All. four spectral envi ronments were used to culture wheat to maturity separately. The activities of phenylalanine and tyrosine ammonia-lyase were photoinduced in wheat tissue obtained from plants grown in the metal halide, high -pressure sodium and greenhouse spectral environments. These enzyme activities are the committed catalytic step in phenylpropanoid biosynthesis and were induced in wheat tissue by fluences of light in the ultraviolet and blue regions of the spectrum. The low-pressure sodium lamp , which does not provide strong irradiance in these wavelengths , produced significantly lower ammonia-lyase activities than were observed in wheat grown within the metal halide , high-pressure sodium, or greenhouse spectral environments. These effects were not caused by phytochrome, since calculation of PfrfPtotal for the low-pressure sodium lamp was higher than the ratio obtained from metal halide or high-pressure sodium lamps. Lignin was also significantly reduced in wheat grown with low-pressure sodium lamps . Several essentialamino acids were in lower molar concentration in protein from wheat grown under low-pressure sodium lamps. However, phenylalanine and tyrosine were in significantly higher concentration in wheat grain produced in this spectral environment, and amino acid concentrations of wheat cultured with the low-pressure sodium lamp are regarded as a direct result of the spectral properties of this light source.
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Importance of light and of the serotonin-melatonin-system on neurophysiology of milk synthesis and ejection in dairy cowsKollmann, Maria Theresia. Unknown Date (has links) (PDF)
München, Techn. University, Diss., 2007.
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Surface modification of photoresponsive nanomaterials enables optical control of cellular function / 光応答性ナノ粒子の表面修飾が可能にする細胞の光制御Nakatsuji, Hirotaka 23 May 2017 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第20574号 / 工博第4354号 / 新制||工||1677(附属図書館) / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 今堀 博, 教授 秋吉 一成, 教授 白川 昌宏 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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Novel Distamycin Frameworks For Enhancement And Photoregulation Of DNA Binding And Stabilization Of Higher Order DNA StructuresGhosh, Sumana 07 1900 (has links)
The thesis entitled “Novel Distamycin Frameworks for Enhancement and Photoregulation of DNA binding and Stabilization of Higher Order DNA Structures” has been divided into 4 chapters. Chapter 1 reviews the current trends in the design of DNA binding small molecules with sequence specific and secondary structure specific DNA recognition characteristics and their role in regulation of transcription and gene modification events. Chapter 2 describes an efficient conjugation of distamycin analogue with oligonucleotide stretches to enhance the specificity and selectivity of the hybrids compared to the covalently unlinked entities. Chapter 3A and 3B present an approach to achieve photoregulation of distamycin binding on duplex DNA minor groove surface via its conjugation with various types of photoisomerizable azobenzene moieties. Chapter 4A and 4B deal with the conjugation of distamycin with higher order DNA structure recognizable small molecule, DAPER to finely tune hybrid ligand recognition at either quadruplex or duplex-quadruplex junction of DNA.
Chapter 1. Design of DNA Interacting Small Molecules: Role in Transcription Regulation and Target for Anticancer Drug Discovery
Regulation of transcription machinery is one of the many ways to achieve control gene expression. This has been done either at the transcription initiation stage or at the elongation stage. There are different methodologies known to inhibit transcription initiation via targeting of double-stranded (ds) DNA by i) synthetic oligonucleotides, ii) ds-DNA specific, sequence selective minor groove binders (distamycin A), intercalators (daunomycin) (Figure 1), combilexins, and iii) small molecule (peptide or intercalator)-oligonucleotide conjugates. In some cases, instead of duplex DNA, higher order triple helix or quadruplex structures are formed at transcription start site. In this regard triplex and quadruplex DNA specific small molecules (e.g. BQQ, Telomestatin etc.) play a significant role for inhibiting transcription machinery (Figure 1). These different types of designer DNA binding agents act as powerful sequence-specific gene modulators, by exerting their effect from transcription regulation to gene modification. But most of these chemotherapeutic agents have side effects. So there is always a challenge remaining with these designer DNA binding molecules, to achieve maximum specific DNA binding affinity, cellular and nuclear transport activity without affecting the functions of normal cells. This could be done either modifying the drug or using two or three effective drugs together to inhibit gene expression to the maximum extent.
(structural formula)
Figure 1. Molecular structures of different DNA interacting small molecules. Distamycin A and daunomycin bind to ds-DNA, BQQ binds to triple helical DNA and Telomestatin stabilizes quadruplex DNA structure.
Chapter 2. Efficient Conjugation and Characterization of Distamycin based Peptide with Selected Oligonucleotide Stretches
A variety of groove-binding agents have been tethered to DNA sequences to improve the antisense and antigene activities and to achieve greater stabilization of the duplex and triplex structures. Unfortunately however, the methods of such tethering are often not available and sometimes not reproducible. Therefore there is a necessity to develop an efficient and general procedure for conjugation. So we have accomplished a convenient and efficient synthesis of five novel distamycin-oligodeoxyribonucleotide (ODN) conjugates where C-terminus of a distamycin derivative has been covalently attached with the 5′-end of selected ODN stretches 5′-d(GCTTTTTTCG)-3′, 5′-d(GCTATATACG)-3′and 5′-AGCGCGCGCA-3′(Figure 2). Selected sequences of ODNs containing aldehyde functionality at 5′-end were synthesized, and efficiently conjugated with reactive cysteine and oxyamine functionalities present at C-terminus of distamycin-based peptide to form five membered thiazolidine ring and oxime linkages respectively. The specificity of distamycin binding and the duplex DNA stabilizing properties resulting from the hybridization of these ODN-distamycin conjugates to sequences of appropriate ODN stretches have been examined by UV-melting temperature measurements, temperature dependent circular dichroism studies and fluorescence displacement assay using Hoechst 33258 as a minor groove competitor. These studies reinforce the fact that the specific stabilization of A-T rich duplex DNA by ODN-distamycin conjugates compared to unlinked subunits. It is evident that the distamycin conjugates are more selective in binding to ODNs containing a continuous stretch of A/T base pairs rather than the one having alternating A/T tracts.
Figure 2. Chemical structures of covalent conjugates of distamycin derivative with selected ODN stretches using thiazolidine, 1 and oxime linkages, 2.
Chapter 3A. Synthesis and Duplex DNA Binding Properties of Photoswitchable Dimeric Distamycins based on Bis-alkoxy substituted Azobenzenes
Two azobenzene distamycin conjugates 2 and 3 (Figure 3) bearing tetra N-methylpyrrole based polyamide groups at the ortho and para position of the dialkoxy substituted azobenzene core were synthesized. The photoisomerization processes of ligands 2 and 3 were examined by irradiating them at ∼355-360 nm followed by UV-vis spectroscopy and 1H-NMR analysis. DNA binding affinity of individual conjugates and the changes in DNA binding efficiency during photoisomerization process were studied in details by circular dichroism spectroscopy, thermal denaturation and Hoechst displacement assay using poly [d(A-T)] at 150 mM NaCl. It has been found that 1 mM DMSO solution of ortho substituted ligand 3 required ∼25 min to form ∼2/8 [E]/[Z] isomeric forms while the para substituted analogue, 2 required ∼10 min to achieve ∼100% cis isomeric form at photostationary state. The conformational freedom of distamycin is restricted while tethered to azobenzene moiety and this loss of flexibility was pronounced with ortho substituted analogue 3 compared to its para substituted counterpart, 2. This was reflected from lower induced circular dichroism (ICD) intensity, lower apparent binding constant and requirement of higher ligand concentration to saturate minor groove binding by distamycin in ligand 3 compared to 2. Finally, higher ICD intensity for cis form and enhancement of ICD intensity via irradiation of DNA bound trans form indicates that photoisomerization process indeed changes the overall shape of the molecule. This in turn might help orientation of some of the amide groups in close proximity with the minor groove surface and improve ligand recognition on duplex DNA.
Figure 3. Chemical structures of distamycin derivative, 1, ortho and para dialkoxy substituted azobenzene-distamycin conjugates, 2 and 3.
Trans-to-cis isomerization of 3 did not significantly improve DNA binding of both distamycin arms compared to ligand 2. The unique characteristics of both isomeric forms of azobenzene-distamycin conjugates are co-operative binding nature on minor groove surface and higher duplex DNA stabilization of ∼7-11 oC more compared to that of their parent distamycin analogue, 1. However, overall difference in the DNA recognition between both isomerized forms has not been highly dramatic.
Chapter 3B. Synthesis and Duplex DNA binding Properties of Photoswitchable Dimeric Distamycins based on Bis-carboxamido substituted Azobenzenes
The synthesis and DNA binding properties of a dimeric distamycin-azobenzene conjugate bearing N-methyl tetrapyrrole (ligand 4) and tripyrrole (ligand 5) based polyamide groups at 4,4′position of the carboxyl substituted azobenzene core have been presented (Figure 4). Distamycin arm has been connected to the azobenzene core via short (∼5 Å) ethylene diamine and long (∼9 Å) N-methyldiethylenetriamine linkages. These features ensure protonation of the distamycin derivative either at the C-terminus for ligand 4 or at the N-terminus for ligand 5 at physiological pH. Photoirradiation at ∼330-340 nm of 1 mM DMSO solution required ∼3.5 h for 4 and ∼1.5 h for 5 to form ∼8/2 [E]/[Z] isomeric forms at photostationary state. The kinetics of photoisomerization and DNA binding nature of both photoisomerized forms (trans and cis) have been characterized by UV-vis, NMR, CD spectroscopy, thermal denaturation studies and Hoechst displacement assay. Greater difference in DNA binding affinity between two isomeric forms of short linker based azobenzene-distamycin conjugate has been achieved. The above fact has been proved by higher apparent DNA binding constant of cis form of 5 compared to the corresponding trans form. The short linker based conjugate is more appropriate in translating configurational change from azobenzene moiety to the end of peptide backbone unlike the one with flexible and long linker. Greater change achieved upon photoisomerization of the azobenzene-distamycin conjugates in cis-form of 5 might bring both distamycin arms in closer proximity and enhanced proximal hydrogen bonding contacts between ligand and DNA bases. At the same time the short spacer and most probably the position of positive charge on the oligopeptide backbone also influenced DNA binding of both distamycin arms in azobenzene-distamycin conjugates, 5 compared to either 1 or long spacer based ligand, 4. Both azobenzene-distamycin hybrid molecules
are able to stabilize duplex poly [d(A-T)] motif by ∼14-18 oC more than the parent distamycin analogue, 1.
Figure 4. Chemical structures of dimeric distamycins based on bis-carboxamido azobenzenes, 4 and 5.
Chapter 4A. Design and Synthesis of Novel Distamycin-DAPER Covalent Conjugates. A Comparative Study on the Interaction of Distamycin, DAPER and their Conjugates with G-Quadruplex DNA
To examine the effect of distamycin on the binding of DAPER to G4-quadruplex DNA structure, three novel conjugates of distamycin and DAPER were synthesized. The conjugates are designated as short linker (SL, 2) and long, flexible spacers (ML, 3 and LL, 4) (Figure 5). The efficiency of DAPER, distamycin and different covalent DAPER-distamycin conjugates in the formation and stabilization of both parallel (ODN1, d(TTGGGGTT)) and antiparallel (ODN2, d(GGGGTTTTGGGG)) G-quadruplex structures were evaluated by native PAGE assay, thermal denaturation experiment, absorption spectroscopy and extensive circular dichroism spectroscopic study. DAPER stabilized both parallel and antiparallel quadruplex structures, whereas distamycin analogue, 1 was found to interact only with parallel quadruplex structure at high ligand concentration. The lower ICD intensity near the DAPER absorption region and requirement of higher ligand concentration to saturate ligand binding on quadruplex surface indicate weak binding nature of DAPER-distamycin covalent conjugates in stabilizing G-quadruplex than DAPER. In this context distamycin was found to interfere with favorable DAPER-G-quadruplex interaction and such steric clash between DAPER and distamycin was more prominent with short spacer based conjugates, SL than the ones possessing longer spacer (dioxyethylenic or trioxyethylenic) based ligands, ML and LL.
Figure 5. Chemical structures of distamycin derivative, 1, DAPER and distamycin-DAPER covalent conjugates (2-4).
Chapter 4B. Structure-specific Recognition of Duplex and Quadruplex DNA Motifs by Hybrid Ligands: Influence of the Spacer Chain
Here DAPER-distamycin covalent conjugates were targeted towards mixed duplex quadruplex motif using hybrid DNA (ODN3, d(CGCTTTTTTGCGGGGTTAGGG) and ODN4, d(CGCAAAAAAGCG)) sequences. In this regard we have chosen DAPER and 1:1 physical mixture of DAPER and distamycin, as reference molecules to compare the affinity and specificity of the covalent conjugates (SL, ML, LL) in stabilizing mixed duplex-quadruplex motif compared to either duplex or quadruplex structures. Simultaneous formation and stabilization of such hybrid duplex-quadruplex motif in the presence of various covalent DAPER-distamycin conjugates were studied by extensive gel electrophoresis, CD spectroscopy, thermal denaturation and UV-vis absorption experiments in the presence of both NaCl and KCl solutions. All these studies show greater efficiency and selectivity of conjugates possessing longer spacers (ML and LL) in stabilizing both duplex and quadruplex structures with ODN3/ODN4 DNA motif compared to single stranded ODN3 sequence. Here distamycin binding to the duplex motif encourages DAPER-quadruplex interaction and stabilizes both tetrameric and one isomeric form of dimeric quadruplex structure compared to the ligand with short spacer, SL and 1:1 physical mixtures of distamycin and DAPER (Scheme 1). Conjugate SL failed to target both duplex and quadruplex entity together as short spacer length did not allow simultaneous participation of both distamycin and DAPER moiety for optimal interaction with duplex and quadruplex structures concomitantly.
Scheme 1a
Possible modes of interactions between different DAPER-distamycin covalent conjugates with ODN3/ODN4 DNA sequences are depicted in Scheme 1.
(For structural formula pl see the pdf file)
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Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicasFragoso, Variluska January 2007 (has links)
Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.
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Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicasFragoso, Variluska January 2007 (has links)
Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.
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Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicasFragoso, Variluska January 2007 (has links)
Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.
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