A potencialidade sintética da reação de Morita-Baylis-Hillman explorada na síntese de compostos tricarbonilados vicinais e derivados ciclopenta[b]indólicos / Exploiting the synthetic potentiality of the Morita-Baylis-Hillman reaction towards the synthesis of vicinal tricarbonyl compounds and cyclopenta[b]indole derivatives

Santos, Marilia Simão dos, 1984-

20 August 2018

Orientador: Fernando Antônio Santos Coelho / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-20T04:45:55Z (GMT). No. of bitstreams: 1 Santos_MariliaSimaodos_M.pdf: 8319783 bytes, checksum: b09561f94bf536402f8e5e21e0e6dc3c (MD5) Previous issue date: 2012 / Resumo: A potenciabilidade sintética dos adutos de Morita-Baylis-Hillman foi explorada no desenvolvimento de uma nova estratégia para a preparação de compostos tricarbonilados vicinais e derivados ciclopenta[b]indólicos. Os compostos tricarbonilados vicinais representam um padrão estrutural de grande interesse sintético, pois são empregados na síntese de heterociclos e diversas moléculas com atividade biológica. A metodologia desenvolvida envolve três etapas que constituem na síntese do aduto de MBH e de duas oxidações subsequentes. A rota se mostrou rápida, simples e eficiente, com rendimentos globais variando entre 15-75%. Além da facilidade operacional essa estratégia é quimicamente sustentável já que apresenta um baixo nível de geração de resíduos químicos. Os núcleos ciclopenta[b]indólicos estão presentes na estrutura de diversos produtos naturais e moléculas bioativas, fato que se torna um estímulo para o desenvolvimento de novas rotas sintéticas. A estratégia baseia-se na oxidação do aduto de MBH seguida de adição de Michael utilizando indol. O produto gerado sofre redução e em seguida é ciclizado em meio ácido levando à obtenção do núcleo de interesse. A síntese se mostrou altamente diastereosseletiva e o mecanismo da etapa de ciclização foi investigado através de espectrometria de massas. Os compostos foram avaliados contra algumas linhagens de células tumorais exibindo atividade citótóxica promissora / Abstract: The synthetic potential of Morita-Baylis-Hillman adducts was exploited towards the development of a new strategy for the preparation of vicinal tricarbonyl compounds and cyclopenta [b] indole derivatives. The vicinal tricarbonyl compounds represent a structural pattern of great synthetic interest because they are employed in the synthesis of heterocycles and several biologically active compounds. The three steps methodology involves the the preparation of MBH adducts, followed by two subsequent oxidations. The route proved to be fast, simple and efficient, with overall yields ranging from 15 to 75%. This strategy is operationally ease and sustainable, since a low level of waste is generated. The nuclei cyclopenta [b]indoles are present in the structure of some natural products and bioactive compounds. This has stimulated efforts towards the development of new synthetic routes to prepare this heterocyclic pattern. Our strategy is based on the oxidation of MBH adduct followed by Michael addition using indole as nucleophile to provide a substituted b-ketoester. The keto carbonyl was reduced and the substituted b-hydroxyester was therefore cyclized in acid conditions leading the desired heterocycles. The synthesis was highly diastereoselectivity and mechanism of the cyclization step was monitored by mass spectrometry. The compounds were evaluated against some tumor cell lines exhibiting promising cytotoxic activity / Mestrado / Quimica Organica / Mestra em Química

Morita-Baylis-Hillman

Oxidação

Derivados ciclopenta[b]indólicos

Compostos tricarbonilados vicinais

Morita-Baylis-Hillman

Oxidation

Cyclopenta[b]indole derivatives

Vicinal tricarbony compunds

Approche génétique et chimique de deux espèces endémiques de Polynésie française : terminalia glabrata et Rauvolfia nukuhivensis / Genetic and chemical approach of two endemic species of French Polynesia : terminalia glabrata and Rauvolfia nukuhivensis.

Martin, Nicolas Joseph

05 June 2014

Terminalia glabrata et Rauvolfia nukuhivensis sont deux espèces végétales polynésiennes endémiques et menacées d’extinction. T. glabrata cohabite avec T. catappa, commune du Pacifique, ce qui contribuerait à sa vulnérabilité par interfertilité. R. nukuhivensis souffre de problèmes de régénération en raison de stress climatiques, de prédation et d’exploitation anthropique. Des approches de génétique et de chimie ont été developpées afin d’étudier ces deux espèces. Pour T. glabrata, les résultats de « barcoding » ont permis d’établir une très forte proximité génétique avec T. catappa. L’analyse métabolomique a révélé une forte variabilité intraspécifique. Les études génétiques de R. nukuhivensis ont permis de relier des espèces distinctes et d’origines géographiques différentes. Elles ont aussi démontré la présence d’un seul groupe de Rauvolfia dont les individus proviennent des îles de Nuku Hiva et de Ua Huka. Ces travaux ont permis d’établir des relations entre les diversités génétiques et chimiques. L’étude des métabolites secondaires de l’écorce de R. nukuhivensis et de la préparation médicinale a permis d’identifier 13 composés, appartenant à 4 familles chimiques (ajmalanes, sarpaganes, macrolines et  carbolines). 8 de ces composés sont nouvellement identifiés dans la nature et une hypothèse de biosynthèse inédite permettant d’expliquer leur co occurrence chez R. nukuhivensis a été établie. Enfin, ces produits ont été soumis à des tests d’activité pharmacologique. La préparation médicinale a stimulé la prolifération cellulaire et la cicatrisation (tissus FHN). Ces tests ont aussi montré la forte inhibition des canaux ioniques Kv11.1 par les nukuhivensiums. / Terminalia glabrata and Rauvolfia nukuhivensis are endangered Polynesian plant species and endemic. T. glabrata co-exists with a common species from the Pacific T. catappa, thus contributing to its vulnerability by interfertility. R nukuhivensis endures regeneration issues due to climate stress, predation and overexploitation. Hence, these species have been classified as protected species by the authorities and are subjected to conservation plans. Because of their heritage value and their traditional uses, they represent species of cultural importance for the country. Genetics and chemistry approaches were conducted for this study. Concerning T. glabrata, barcoding assays established great similarity with T. catappa. Metabolomics data showed infraspecific variability. Phylogenetic data of Rauvolfia species are consistent with their biogeography, and revealed the existence of an only group of individuals from Nuku Hiva and Ua Huka. Genetic diversity is linked to phytochemical occurence. Investigation of R. nukuhivensis bark metabolites and the traditional remedy led to identification of 13 isolated compounds within 8 new ones, belonging to the ajmalan, sarpagan, macroline and β-carboline skeleton. The co-occurrence of these alkaloid skeletons led to establish an unprecedented biosynthesis route. Finally, isolated compounds and the traditional remedy were submitted to bioassays. The traditional remedy induced cell proliferation and wound healing activities on FHN cells and ion channels Kv11.1 were strongly inhibited by

Terminalia glabrata

Rauvolfia nukuhivensis

Phylogénie

Alcaloïdes indoliques

Macrolines

Β-Carbolines

Activités pharmacologiques

Terminalia glabrata

Rauvolfia nukuhivensis

Phylogeny

Indole alkaloids

Macrolines

Β-Carbolines

Biological activity

Enantiospecific Total Synthesis of Indole Alkaloids Eburnamonine, Aspidospermidine, Quebrachamine, Henrycinols A and B and Synthesis of Azepino [4,5 -b] Indolones

Nidhiry, John Eugene

January 2014

The thesis entitled “Enantiospecific total synthesis of indole alkaloids eburnamonine, aspidospermidine, quebrachamine, henrycinols A and B and synthesis of azepino[4,5-b]indolones” is divided into three chapters. In the first chapter, a unified strategy for the enantiospecific total synthesis of monoterpene indole alkaloids (+)-eburnamonine (1), (–)-aspidospermidine (2) and (–)-quebrachamine (3) is described. The chiral pool synthesis commenced with (S)-ethyl lactate 4, which was elaborated to the allylic alcohol 5. Johnson-Claisen orthoester rearrangement of the allylic alcohol 5 furnished the key chiral building block 6 possessing a quaternary stereogenic center. Pictet-Spengler cyclization of tryptamine with the corresponding aldehydes obtained by appropriate functionalization of the chiral building block 6 and ring closing metathesis were the key reactions employed en route the total synthesis of the indole alkaloids 1–3 (Scheme 1). Scheme 1. Unified strategy for the synthesis of monoterpene indole alkaloids (+)-eburnamonine (1), (–)-aspidospermidine (2) and (–)-quebrachamine (3). The second chapter of the thesis pertains to the synthesis of azepino[4,5-b]indolones 7 via Brønsted acid mediated intramolecular cyclization of unsaturated tryptamides 8. Various ,-unsaturated acids 9 derived from different -hydroxy esters 10, were converted to the corresponding unsaturated tryptamides 8 and subjected to the optimized reaction conditions. The results of the study indicated that -substituted unsaturated secondary tryptamides derived from (S)-ethyl lactate were the most effective in undergoing an intramolecular cyclization to furnish the corresponding azepino[4,5-b]indolones 7, possessing a quaternary stereogenic center in good yields. The presence of an alkenyl moiety in the quaternary center allowed the functionalization of these compounds and was subsequently employed to access the ABCD core 11 of tronocarpine and the tetracyclic cores 12 of some iboga alkaloids. The loss of chirality in the formation of the azepino[4,5-b]indolones indicated that the reaction proceeds predominantly by an SN1 pathway. During the course of the study an interesting formation of an azonino[5,4-b]indolone 13 by a competing SN1 pathway and a tetracyclic azepino[4,5-b]indolone 14 via a cascade cyclization were noticed (Scheme 2). Scheme 2. Synthesis of azepino[4,5-b]indolones 7 possessing a quaternary stereogenic center. The first total synthesis of two new indole alkaloids, henrycinols A (15) and B (16) which were isolated from the plant Melodinus henryi CRAIB is described in the third chapter of the thesis. The key reaction in the synthetic sequence is the Pictet-Spengler cyclization of L-tryptophan methyl ester 17a and the aldehyde 18 derived from D-tartaric acid which leads to the installation of all the stereogenic centers present in the natural products. Interestingly, a switch in the diastereoselectivity of the reaction was observed by varying the substituent on the amine in L-tryptophan methyl ester 17. When L-tryptophan methyl ester 17b possessing an N-allyl substitution was employed, the desired 1,3-trans tetrahydro--carboline 19b could be obtained in good yields, which was subsequently elaborated to the natural products 15 and 16 (Scheme 3). Scheme 3. Total synthesis of henrycinols A (15) and B (16).

Indole Alkaloids synthesis

Eburunamonine

Aspidospermidine

Quebrachamine

Henrycinols

Azepino Indolones Synthesis

Natural Products Total Synthesis

Alkaloid Natural Products

Azepino[4,5-b] indolones

Unsaturated Tryptamides

Organic Chemistry

Phytomonas serpens: caracterização da piruvato/indolpiruvato descarboxilase e funcionalidade da auxina produzida. / Phytomonas serpens: characterization of the pyruvate/indolepyruvate decarboxylase and functionality of the auxin produced.

Susan Ienne da Silva Vançan

22 May 2012

Um gene que codifica uma piruvato/indolpiruvato descarboxilase (PDC/IPDC) está presente no tripanossomatídeo de plantas Phytomonas serpens. A PDC atua na fermentação alcoólica, enquanto que a IPDC atua na biossíntese do fitormônio ácido indol-3-acético (AIA). Análises filogenéticas indicam que a PDC/IPDC de P. serpens é monofilética com IPDCs de gama-proteobactérias, sugerindo um evento de transferência horizontal gênica. A análise de meios de cultura de P. serpens confirma a produção de etanol e AIA. A funcionalidade do fitormônio foi confirmada em ensaios de alongamento de hipocótilos de tomateiros. Tomates inoculados com P. serpens mostraram aumento no teor de AIA-amida e -éster conjugados. A atividade PDC foi mostrada em extratos de P. serpens. Concluímos que a PDC/IPDC seria uma 2-cetoácido descaboxilase com atividade catalítica variável para diferentes substratos. A atividade PDC parece ser predominante em P. serpens, representando um mecanismo para oxidar parte do NADH formado na glicólise, principal responsável pela produção de ATP neste organismo. / A gene codifying a pyruvate/indolepyruvate decarboxylase (PDC/IPDC) is present in the plant trypanosomatid Phytomonas serpens. PDC acts in the alcoholic fermentation, whyle IPDC acts in the biosynthesis of the phytohormone indole-3-acetic acid (IAA). Phylogenetic analysis indicate that P. serpens PDC/IPDC is monophyletic with gamma-proteobacteria IPDCs, suggesting a horizontal gene transfer event. Analysis of P. serpens culture media confirms production of ethanol and IAA. The functionality of the phytohormone was confirmed by tomato hypocotyl elongation tests. Tomatoes inoculated with P. serpens showed an increase in the concentration of IAA amide and ester conjugated. PDC activity was shown in P. serpens extracts. We conclude that the PDC/IPDC would be a 2-keto acid decaboxylase with variable catalytic activity for different substrates. The PDC activity appears to be prevalent in P. serpens representing a mechanism to oxidize part of NADH formed in glycolysis, responsible for ATP production in this organism.

Phytomonas serpens

Ácido indol-3-acético

Indolpiruvato descarboxilase

Piruvato descarboxilase

Protozoa

Trypanosomatidae

Phytomonas serpens

Indole-3-acetic

Indolpiruvato decarboxylase

Protozoa

Pyruvate decarboxylase

Trypanosomatidae

Efeito do ácido indol-3-acético no metabolismo amido-sacarose durante o amadurecimento da banana (Musa spp.) / The effects of indole-3-acetic acid on starch-to-sucrose metabolism during banana (Musa spp.) ripening

Eduardo Purgatto

13 December 2001

Dentre os vários processos que concorrem para o amadurecimento da banana, a degradação do amido e sua conversão em açúcares solúveis, principalmente sacarose, são dois dos processos mais relevantes para a obtenção o sabor doce característico do fruto maduro. Embora venha sendo estudado há anos, ainda não foram esclarecidos quais os mecanismos regulatórios e os possíveis sinais hormonais envolvidos no controle da degradação do amido e na síntese da sacarose. O presente estudo objetivou avaliar o efeito do ácido indol-3-acético (AIA), um hormônio da classe das auxinas com reconhecido efeito retardador do amadurecimento, sobre o metabolismo amido-sacarose e algumas enzimas correlacionadas, em bananas. Observou-se um forte efeito retardador do hormônio sobre a degradação do amido no amido durante o amadurecimento de fatias de bananas infiltradas com uma solução contendo AIA em manitol, em comparação com fatias controle infiltradas apenas com manitol. As atividades de alfa e ß-amilase e alfa-1,4-glicosidase neutra foram afetadas pelo AIA, apresentando atraso no desenvolvimento de suas atividades durante o amadurecimento, quando comparadas às fatias controle. A atividade da fosforilase de amido aparentemente não foi afetada. A transcrição do mRNA da ß-amilase foi atrasada pelo AIA e pôde ser correlacionada ao atraso na degradação do amido Os resultados sugerem que o atraso na mobilização do amido provocado pelo AIA deve decorrer de seus efeitos sobre as enzimas amilolíticas. O trabalho também sugere a relevância da ß-amilase para o processo e que esta enzima, ao menos em parte, é regulada por transcrição. No sentido da síntese de sacarose, as atividades de SuSy e SPS não mostraram alterações significativas. A transcrição do mRNA da SuSy e da SPS não foram afetadas. O atraso no acúmulo da sacarose, observado nas fatias infiltradas com o hormônio, pode ser conseqüência da limitação de substrato para a síntese deste açúcar devido ao atraso na degradação do amido. Medidas de etileno revelaram que a produção deste hormônio não foi afetada pelo AIA, sugerindo que a degradação do amido, pelo menos em parte possa ser um evento etileno- independente. Medidas da forma livre do AIA endógeno nas fatias controle e em bananas inteiras, mostraram que os níveis desta auxina decrescem durante o amadurecimento, atingindo os menores valores durante a mobilização do amido. Nas fatias tratadas, as medidas da forma livre do AIA e de seus conjugados mostraram a existência de um eficiente sistema capaz de mobilizar o excesso do hormônio no tecido e acomodando os níveis da forma livre aos mesmos encontrados nas fatias controle e nas bananas inteiras. Esta observação pode ser temporalmente correlacionada ao atraso na degradação do amido. O presente estudo mostrou não apenas a capacidade do AIA em afetar o metabolismo amido-sacarose em bananas mas também sugere que este hormônio pode ser parte dos sinais que regulam o madurecimento em bananas. / During banana ripening, starch degradation and sucrose formation are important processes responsible for the sweetening of ripe fruit. Although has been studied for several years, the regulation and hormonal signals that control these metabolic processes still remains not clear. The objective of this work has been evaluate the effect of indole-3-acetic acid (IAA), an auxin with inhibitory effect on ripening, on starch-to-sucrose metabolism and some correlated enzymes. The results showed a delay on starch degradation in slices infiltrated with IAA plus mannitol comparing to slices infiltrated only with mannitol. The activities of alfa- and ß-amylase and alfa-1,4-glucosidase was delayed. Starch phosphorylase was not affected. These results suggest that IAA can delay starch degradation inhibiting, at least partially, the amylolitic activity. Synthesis of ß-amylase mRNA was strong delayed on IAA-treated slices comparing to control slices, indicating that this enzyme could be, at least partially, regulated at the transciptional level. In sucrose synthesis direction, sucrose synthase (SuSy) and sucrose-phosphate synthase (SPS) activities and mRNA transcription were not affected. This suggests that delay on sucrose formation could be a consequence of lack of substrate, since starch degradation was inhibited. Ethylene measurements didn\'t reveal any significant differences between control and IAA-treated slices suggesting that starch degradation on banana ripening could be a ethylene-independent event. Free endogenous IAA measurements on control slices and whole banana fruit showed that this IAA fraction decrease continuously in the pulp of banana during ripening, reaching the lowest levels at the same time that starch degradation begun. On IAA-treated slices, the free plus conjugate IAA showed the existence of an efficient system that mobilized the hormone excess and brought the free IAA to the same levels of control and whole fruit. This could be timely correlated with the delay on starch degradation. This work shows not only that IAA can delay the starch degradation but also suggest that IAA could be part of regulatory signals involved on banana ripening.

Ácido indol-acético

Açúcares

Amido

Auxinas

Banana - amadurecimento

Musa acuminata

Auxins

Banana - ripening

Indole-3-acetic acid

Musa acuminata

Starch

Sugars

Alkaloidy Vinca minor L. a jejich biologická aktivita II. / Vinca minor L. alkaloids and their biological activity II.

Pavuková, Simona

January 2021

Pavuková, S.:Vinca minor L. alkaloids and their biological activity II. Diploma thesis, Charles University, Faculty of Pharmacy in Hradec Králové, Department of Pharmaceutical Botany, Hradec Králové 2020. Vinca minor L. is a species of species of flowering plant, native mainly to central and southern Europe, which containst more than 50 indole alkaloids. During screening of potential plant inhibitors against human acetylcholinesterase (hAChE) and butyrylcholinesterase (HBChE) at our department, an alkaloidal extract from dried aerial parts of Vinca minor demonstrated strong and selective hBChE inhibitory activity with an IC50 value of 13.60 ± 0.83 μg/mL, however, against hAChE was inactive (IC50 value >100 μg/mL). The fraction VM 323 - 327 (4,72 g) was separated by column chromatography on silica gel again with stepwise elution by using chloroform and ethanol and overall 7 joined fractions were obtained.Subsequently, repeated preparative TLC on silica gel led to isolation of three compounds; the newly isolated substance SP-1, (-)-picrinine (SP-2) and deacetylakuammiline (SP-3). Their structures were elucidated with mass spectrometry (ESI), NMR and optical rotation. Isolated alkaloids were tested on ability to inhibit AChE, BuChE, POP a GSK-3β, which are enzymes playing an important role in...

Étude chimique et biologique de Gentianales gabonaises d’intérêt antipaludique, à alcaloïdes indolomonoterpéniques / Chemical and biological study of Gabonese Gentianales with antoplasmodial interest, bearing monoterpene indole alkaloids

Otogo n'nang, Elvis

21 February 2018

L’étude chimique de 11 plantes du Gabon, dont certaines utilisées en médecine traditionnelle, a été réalisée à la recherche de composés antiplasmodiaux de structures nouvelles. Deux Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) et une Gelsemiaceae (Mostuea brunonis Didr.) ont été plus spécifiquement étudiées, via une stratégie de déréplication fondée sur des réseaux moléculaires générés à partir de données CLHP-MS/MS (Molecular Networking) et annotés avec une base de données d’alcaloïdes indolomonoterpéniques mise au point au laboratoire (MIADB). Cette investigation a guidé un travail de fractionnement et d’isolement, qui a permis l’obtention d’alcaloïdes indolomonoterpéniques très originaux, en termes de décorations ou de modes d’assemblage.Des écorces de tiges de P. mutica, 7 dimères indolomonoterpéniques non décrits dans la littérature ont été obtenus : 5 sont des bis-aspidofractanes dont 4 sont reliés par un pont méthylène (pléiokomenines A-D) ; deux sont des dimères du type aspidofractane-éburnamine, analogues de la pléiomutine.Les tiges et les racines de C. inaequalis ont livré 2 bis-indoles nouveaux, analogues de la criophylline, dont le premier porteur d’un sulfate dans cette classe d’alcaloïdes, ainsi que l’inaequalisine A, premier indolomonoterpène monomérique lié à un reste phénylpropène via une liaison C-C.L’étude des tiges et des feuilles de M. brunonis a conduit à l’isolement de quatre nouveaux composés : un monomère de type sarpagine (16-epi-méthylester-panarine) et 3 dimères bis-vobasines inédits à pont sulfide (théionbrunonines A-C). Des molécules connues, mais pas toujours identifiées dans les genres étudiés, ont également été isolées. Plusieurs des composés nouveaux présentent une activité antiplasmodiale de l’ordre du µM in vitro sur une souche de Plasmodium falciparum chloroquino-résistante. / The chemical study of 11 Gabonese plant species, some being used in traditional medicine, was performed in search of antiplasmodial compounds with new structures. Two Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) and a Gelsemiaceae (Mostuea brunonis Didr.) were more specifically investigated, using LC-MS/MS data in a dereplicative approach based on the “molecular networking” strategy, with an annotation performed using an “in-house” monoterpene indole alkaloids database (MIADB). This approach was used to guide the isolation of original alkaloids, in terms of substitution patterns or of linkage. From the stem bark of P. mutica, 7 previously undescribed bis-indoles were obtained: five are bis-aspidofractanes, four of them being linked by a methylene bridge (pleiokomenines A-D); Two are aspidofractane-eburnane dimers analogous to pleiomutine. The twigs and roots of C. inaequalis yielded 2 new bis-indoles analogous to criophylline, among which one is the first natural sulfate-bearing indole monoterpene. Inaequalisine A, the first monomeric indole monoterpene linked to a phenylpropene moiety by a C-C linkage was also obtained.The study of the twigs and leaves of M. brunonis lead to 4 new compounds: A monomeric sarpagine (16-epi-methylester-panarine) and 3 unknown bis-vobasines which constituting monomers are linked by a sulfide bridge (theionbrunonines A-C).Known compounds were also isolated, some of which were previously undescribed in the genera studied here. Several of the new molecules exhibited antiplasmodial in vitro activity in the micromolar range against a chloroquine-resistant strain of P. falciparum.

Alcaloïdes indolomonoterpéniques

Apocynaceae

Clhp-Ms/ms

Gelsemiacae

Réseaux moléculaires

Paludisme

Apocynaceae

Gelesemiaceae

Hplc-Ms/ms

Indole monoterpene alkaloids

Malaria

Molecular networking

Regulation of Stomata Opening in the Crassulacean Acid Metabolism Plant Kalanchoe Laxiflora

Albader, Anoud Abdulmalik

08 December 2017

Stomata are small pores that are located on the surface of epidermal leaves, and they can regulate the uptake of CO2 and prevent water lose by opening and closing the pores. Stomata of plants can be regulated by external condition such as CO2, biotic and abiotic stresses and internal factors. CAM (crassulacean acid metabolism) plants adapt to hot and dry environments by closing stomata during the day and opening stomata during the cool night. However, it is still unclear how CAM plants open their stomata during the night and close them during the day. In this study, a number of factors were evaluated for their potential roles in promoting stomatal opening in the model CAM plant Kalanchoe laxiflora. Citrate is an important organic acid and it accumulates during the night in CAM plants. It is shown in this study that citrate promoted stomatal opening in detached leaf epidermis of Kalanchoe laxiflora. Further, the cytokinin zeatin is also shown to stimulate stomatal opening in detached leave of Kalanchoe laxiflora. Melatonin is an important regulator of circadian rhythms in mammals and has been implicated in regulation of plant abiotic stress responses. Melatonin was detected in the leaves of Kalanchoe laxiflora. It promoted stomatal opening in detached epidermis of Kalanchoe laxiflora. Together, these results suggest that stomata of Kalanchoe laxiflora respond to citrate and malate which are the main organic acids accumulate during nighttime and also to some signaling molecules (zeatin, melatonin, and serotonin) by opening stomata during dark period.

malic acid

citric acid

malate dehydrogenase

phosphoenolpyruvate carboxylase

RUBISCO

Native gel electrophoresis

preparation of epidermal strip

Indole Acetic Acid

cytoplasmic NADP-malic enzyme

potassium

measurements of aperture size

vacuole

New Carbazole-, Indole-, and Diphenylamine-Based Emissive Compounds: Synthesis, Photophysical Properties, and Formation of Nanoparticles

Panthi, Krishna K.

02 March 2011

No description available.

Chemistry

Carbazole

Indole and diphenylamine based compounds

2,7-carbazole linker based compounds

Indole-3-Carbinol Inhibition of Herpes Simplex Virus Replication

Stoner, Terri Dorene

03 December 2008

No description available.

Biomedical Research

Indole-3-Carbinol

Herpes Simplex Virus

antiviral

broccoli

G1/S

I3C

cell cycle

cyclin dependent kinase

cyclin

MRC-5 cells

HSV

cruciferous

phytocompound