Effect of Indole-3-butyric Acid on the Formation of Adventitious Roots in Cinnamomum kanehirae Cuttings

Chang, Chiung-yun

21 July 2005

Synthetic auxin, indole-3-butyric acid (IBA), effectively promoted the rooting in Cinnamomum kanehirae cuttings. The easy-to-root genotype, H107, responded to IBA much earlier than the difficult-to-root genotype, L41. On day 5, the POD activity significantly decreased in the IBA-treated tissues as compared with the control. Similar phenomenon was observed in extract of L41 genotype showing that IBA inhibited POD activity. In addition, the variation in POD activity corresponds to an inverse variation in the concentration of free IAA. The levels of IAA in H107 genotype increased dramatically in IBA-treated tissues on day 5; while, in L41 genotype, the raise of IAA in IBA-treated tissues was observed on day 20. Moreover, the lignin content in IBA-treated H107 cuttings decreased is quite correlated with the decline of the POD activity; yet the lignin content in L41 genotype cuttings was almost unchanged. Hence, we suggest that the inhibition on POD may lead to the redifferentiation processes induced by IBA, then produce the new root primordia during the formation of adventitious roots.

lignification

Cinnamomum kanehirae

adventitious root formation

peroxidase

indole-3-butyric acid

Cloning and sequence analysis of the peroxidase genes in Cinnamomum kanehirae young roots

Cho, Hsin-yi

30 June 2007

Auxin can induce adventitious rooting. Synthetic auxin, indole-3-butyric acid (IBA), effectively promoted the rooting in Cinnamomum kanehirae. The peroxidase (POX) activity significantly decreased in the IBA-treated tissues as compared with the control. Hence, I suggest that the inhibition on POX activity may lead to the redifferentiation processes induced by IBA, which produces the new root primordia during the formation of adventitious roots. On this investigation, I cloned POX cDNA from the young roots. Degenerate primers were designed from the conservative regions of other published POX to amplify the expectant DNA fragment. Full-length cDNA of the POX gene designated CKPX1 and CKPX3 were cloned by the method of 5'and 3' RACE. The deduced amino acid of CKPX1 and CKPX3 were compared with the previously reported POX and showed between 40% and 60% identity with those plant species. Further studies on the promoter elements of CKPX3 were found out that elements related to auxin response, lignification, pathogen invasion and stress response. The results suggest that CKPX3 may be involved in the regulate process of adventitious rooting and defense against pathogens and environment stress.

Cinnamomum kanehirae

adventitious root formation

peroxidase

lignification

indole-3-butyric acid

Development Of New Synthetic Methodologies For The Synthesis Of Unusual Isocoumarin And Indole Derivatives:the Chemistry Of Homophthalic Acid

Ozcan, Sevil

01 January 2007

Many heterocyclic compounds containing nitrogen, oxygen and sulfur show wide range of physiological activities and their synthesis has always been attracted the interest of chemists. The aim of this research is to develop new synthetic methodologies leading to the synthesis of new derivatives of isocoumarines, indoles, isoquinolines, benzodiazepinones and quinazolines, which have been found to show important biological activities. Starting from homophthalic acid and bishomophthalic acid the corresponding acyl azides were proposed to be synthesized, which then would be used for the synthesis of various heterocycles. The proposed diazide from homophthalic was not formed due to the tendency of the ortho-positioned acid to undergo cyclization. Instead, new unusual benzochromen and isocoumarin derivatives have been synthesized in a single step, for which reasonable mechanisms have been proposed. The half ester produced from homophthalic acid was an important key compound for the synthesis of new highly substituted indole derivatives, which are expected to be biologically active. The diisocyanate derived from was synthesized directly from ortho-bromo xylene was treated with alcohols and hydrazine to produce seven membered rings. Instead of the intramolecular cyclization reaction, they underwent polymerization to form new polymers. Furthermore, new synthetic method for the synthesis of pyrazoles has been developed.

QD Organic Chemistry 241-441

Development Of New Synthetic Methodologies For Indole Derivatives: Chemistry Of Homophthalic Acid

Kilikli, Ahmet Alper

01 February 2010

Synthesizing nitrogen containing heterocyclic compounds is one of the leading research areas throughout the organic chemistry due to their significant activities on biological systems. Among the various biologically active molecules, indole derivatives are of prime importance on the grounds of their proven clinical roles. Objective of this study is to synthesize new indole derivatives those may contribute treatment of several diseases like their analogues via a recently developed synthetic methodology. Besides this, another objective is to observe and discuss effects of two different substituents on the homophtalic acid system through the synthetic route. Initially starting from homophtalic and 3-methoxybenzoic acid two different homophtalic acid derivatives were synthesized as starting materials. Then the corresponding acyl azide and isocyanate derivatives were generated which might further be used as a precursor to construct a variety of indole derivatives. After synthesizing urea derivatives, ring-closure under the basic conditions generated the heterocyclic units. Whole products were conscientiously purified and characterized.

QD Organic Chemistry 241-441

Cloning and sequence analysis of the peroxidase genes in High and Low rooting line of Cinnamomum kanehirae

Li, Ming-wei

26 May 2009

Auxin can induce adventitious rooting. Synthetic auxin, indole-3-butyric acid (IBA), effectively promoted the rooting in Cinnamomum kanehirae. In Cinnamomum kanehirae, there are high (H) and low (L) rooting cultivar. The peroxidase (POX) activity significantly decreased in the IBA-treated tissues as compared with the control. The inhibition on POX activity may lead to the redifferentiation processes induced by IBA. In this investigation, we cloned POX cDNA from the young roots. Degenerate primers were designed from the conservative regions of other published POXs to amplify the expectant DNA fragment. We found that the H and L line have similar genes (>99%). The Full-length cDNA of the POX genes were cloned by the method of 5'and 3' Rapid Amplification of cDNA Ends (RACE). The deduced amino acid were compared with the previously reported POX and showed between 40% and 70% identity with other plant POXs. Further studies on the promoter elements of POX in High-rooting cultivar and Low-rooting line show that some elements are related to auxin response, lignification, pathogen invasion and stress response. The regulatory elements of the POX gene in High-rooting line contain sugar repression responsiveness (SRS) elements that might repress the expression of POX gene, causing the lower POX activity.

sugar repression responsiveness

peroxidase

lignification

adventitious root formation

indole-3-butyric acid

Cinnamomum kanehirae

Odour Communication in Pieris Butterflies

Andersson, Johan

January 2004

No description available.

Pieris

sexual selection

pheromones

methyl salicylate

indole

benzyl cyanide

solid-phase micro extraction

Cobalt- and Nickel-Catalyzed Functionalization of Unactivated C–Hal, C–O and C–H Bonds

Song, Weifeng

07 November 2013

No description available.

540

transition-metal

C–C/C–N bond

indole synthesis

functionalization

Chemie  (PPN62138352X)

Vibrational spectroscopic studies on the structure and interaction with solution components of bifunctional organic compounds adsorbed at metal electrodes / Bifunkcinių organinių junginių, adsorbuotų ant metalinių elektrodų, struktūros ir sąveikos su tirpalo komponentais tyrimas virpesių spektroskopijos metodais

Razmutė-Razmė, Inga

15 December 2009

The indole and phenole rings comprise the main part of tryptophan and tyrosine side chains in proteins and play an important role in the stabilization of tertiary structure, interaction with active centers in biomolecules, and electron transfer phenomena. To get better insight into the interactions of these functional groups, the artificial monomolecular structures have been constructed from the synthesized bifuncional compounds with thiol and indole or phenole ring functional groups able to form self-assembled monolayers on gold, silver and copper electrodes. Properties of these monolayers were studied by Raman, infrared, and sum-frequency generation spectroscopies. The main tasks of this work were to assess the adsorption peculiarities of the bifunctional thiols at the initial stage of the monolayer formation, to determine the influence of the electrode nature on the monolayer structure, and to establish the potential influence on the properties of the terminal functional groups. It was demonstrated for the first time that at the initial stage of monolayer formation the methylene groups interact with the metal surface. Evidence for the metal-induced lowering of the CH stretching mode frequency down to 2820 cm-1 was provided. It was demonstrated that indole ring interacts with the Ag electrode surface at sufficiently negative potentials and this interaction can be recognized from the downshift of the W16 mode from ~ 1010 cm-1 to ~ 1001 cm-1. Investigations of indole... [to full text] / Triptofano ir tirozino aminorūgščių funkcinės grupės – indolo ir fenolio žiedai, stabilizuoja baltymų tretinę struktūrą, sąveikauja su aktyviais centrais biomolekulėse, dalyvauja elektronų pernašos procesuose. Siekiant giliau suprasti kaip šios grupės sąveikauja, buvo sukonstruotos dirbtinės monosluoksninės struktūros, sudarytos iš susintetintų bifunkcinių junginių, turinčių galines tiolio ir indolo žiedo arba fenolio žiedo grupes ir gebančių formuoti savitvarkius monosluoksnius ant aukso, sidabro ir vario elektrodų. Jų savybės ištirtos Ramano, infraraudonosios ir suminio dažnio generacijos spektroskopijų metodais. Pagrindiniai darbo tikslai buvo nustatyti bifunkcinių alkantiolių struktūrą ir adsorbcijos ypatumus pradinėje monosluoksnio formavimosi stadijoje, elektrodo prigimties įtaką monosluoksnių struktūrai ir potencialo įtaką galinių funkcinių grupių savybėms. Paviršiaus sustiprintos Ramano spektroskopijos metodu pirmą kartą parodyta, kad pradinėse monosluoksnių formavimo stadijose metileno grupės sąveikauja su metalo paviršiumi. Darbe įrodyta, kad dėl sąveikos su metalu spektruose atsiranda žemesnio dažnio („minkšta“) CH juosta ties 2820 cm-1. Pirmą kartą parodyta, kad indolo žiedas sąveikauja su Ag paviršiumi, esant pakankamai neigiamiems potencialams ir tą sąveiką galima spektriškai atpažinti pagal W16 modos ties ~1010 cm-1 dažnio sumažėjimu iki ~ 1001 cm-1. Tiriant indolo žiedu terminuotus ir mišrius monosluoksnius su įterptomis oktadekantiolio molekulėmis nustatytas... [toliau žr. visą tekstą]

Chemistry

Surface enhanced Raman spectroscopy

Indole

Tryptophan

Triptofanas

Indolas

Bifunkcinių organinių junginių adsorbuotų ant metalinių elektrodų, struktūros ir sąveikos su tirpalo komponentais tyrimas virpesių spektroskopijos metodais / Vibrational spectroscopic studies on the structure and interaction with solution components of bifunctional organic compounds adsorbed at metal electrodes

Razmutė-Razmė, Inga

15 December 2009

Triptofano ir tirozino aminorūgščių funkcinės grupės – indolo ir fenolio žiedai, stabilizuoja baltymų tretinę struktūrą, sąveikauja su aktyviais centrais biomolekulėse, dalyvauja elektronų pernašos procesuose. Siekiant giliau suprasti kaip šios grupės sąveikauja, buvo sukonstruotos dirbtinės monosluoksninės struktūros, sudarytos iš susintetintų bifunkcinių junginių, turinčių galines tiolio ir indolo žiedo arba fenolio žiedo grupes ir gebančių formuoti savitvarkius monosluoksnius ant aukso, sidabro ir vario elektrodų. Jų savybės ištirtos Ramano, infraraudonosios ir suminio dažnio generacijos spektroskopijų metodais. Pagrindiniai darbo tikslai buvo nustatyti bifunkcinių alkantiolių struktūrą ir adsorbcijos ypatumus pradinėje monosluoksnio formavimosi stadijoje, elektrodo prigimties įtaką monosluoksnių struktūrai ir potencialo įtaką galinių funkcinių grupių savybėms. Paviršiaus sustiprintos Ramano spektroskopijos metodu pirmą kartą parodyta, kad pradinėse monosluoksnių formavimo stadijose metileno grupės sąveikauja su metalo paviršiumi. Darbe įrodyta, kad dėl sąveikos su metalu spektruose atsiranda žemesnio dažnio („minkšta“) CH juosta ties 2820 cm-1. Pirmą kartą parodyta, kad indolo žiedas sąveikauja su Ag paviršiumi, esant pakankamai neigiamiems potencialams ir tą sąveiką galima spektriškai atpažinti pagal W16 modos ties ~1010 cm-1 dažnio sumažėjimu iki ~ 1001 cm-1. Tiriant indolo žiedu terminuotus ir mišrius monosluoksnius su įterptomis oktadekantiolio molekulėmis nustatytas... [toliau žr. visą tekstą] / The indole and phenole rings comprise the main part of tryptophan and tyrosine side chains in proteins and play an important role in the stabilization of tertiary structure, interaction with active centers in biomolecules, and electron transfer phenomena. To get better insight into the interactions of these functional groups, the artificial monomolecular structures have been constructed from the synthesized bifuncional compounds with thiol and indole or phenole ring functional groups able to form self-assembled monolayers on gold, silver and copper electrodes. Properties of these monolayers were studied by Raman, infrared, and sum-frequency generation spectroscopies. The main tasks of this work were to assess the adsorption peculiarities of the bifunctional thiols at the initial stage of the monolayer formation, to determine the influence of the electrode nature on the monolayer structure, and to establish the potential influence on the properties of the terminal functional groups. It was demonstrated for the first time that at the initial stage of monolayer formation the methylene groups interact with the metal surface. Evidence for the metal-induced lowering of the C−H stretching mode frequency down to 2820 cm-1 was provided. It was demonstrated that indole ring interacts with the Ag electrode surface at sufficiently negative potentials and this interaction can be recognized from the downshift of the W16 mode from ~ 1010 cm-1 to ~ 1001 cm-1. Investigations of indole ring... [to full text]

Chemistry

Triptofanas

Indolas

Tryptophan

Surface enhanced Raman spectroscopy

Indole

Systems Biology of Microbiota Metabolites and Adipocyte Transcription Factor Network

Choi, Kyungoh

16 December 2013

The overall goal of this research is to understand roles of gut microbiota metabolites and adipocyte transcription factor (TF) network in health and disease by developing systematic analysis methods. As microbiota can perform diverse biotransformation reactions, the spectrum of metabolites present in the gastrointestinal (GI) tract is extremely complex but only a handful of bioactive microbiota metabolites have been identified. We developed a metabolomics workflow that integrates in silico discovery with targeted mass spectrometry. A computational pathway analysis where microbiota metabolisms are modeled as a single metabolic network is utilized to predict a focused set of targets for multiple reaction monitoring (MRM) analysis. We validated our methodology by predicting, quantifying in murine cecum and feces and characterizing tryptophan (TRP)-derived metabolites as ligands for the aryl hydrocarbon receptor. The adipocyte process of lipid droplet accumulation and differentiation is regulated by multiple TFs that function together in a network. Although individual TF activation is previously reported, construction of an integrated network has been limited due to different measurement conditions. We developed an integrated network model of key TFs - PPAR, C/EBP, CREB, NFAT, FoxO1, and SREBP-1c - underlying adipocyte differentiation. A hypothetic model was determined based on literature, and stochastic simulation algorithm (SSA) was applied to simulate TF dynamics. TF activation profiles at different stages of differentiation were measured using 3T3-L1 reporter cell lines where binding of a TF to its DNA binding element drives expression of the Gaussia luciferase gene. Reaction trajectories calculated by SSA showed good agreement with experimental measurement. The TF model was further validated by perturbing dynamics of CREB using forskolin, and comparing the predicted response with experimental data. We studied the molecular recognition mechanism underlying anti-inflammatory function of a bacterial metabolite, indole in DC2.4 cells. The indole treatment attenuated the fraction of cells that were producing the pro-inflammatory cytokine, TNFα and knockdown of nuclear receptor related 1 (Nurr1; NR4A2) resulted in less indole-derived suppression of TNFα production. The first discovery of NR4A2 as a molecular mediator of the endogenous metabolite, indole is expected to provide a new strategy for treatment of inflammatory disorders.

microbiota metabolites

metabolomics

adipocyte transcription factor network

stochastic simulation algorithm

NR4A2

indole