Clonagem e análise da expressão de genes de proteínas de mamão papaia com atividade inibitória sobre poligalacturonases fúngicas / Cloning and expression analysis of papaya genes encoding proteins with inhibitory activity against fungal polygalacturonases

Broetto, Sabrina Garcia

10 July 2013

As proteínas inibidoras de poligalacturonases (PGIPs) presentes na parede celular são capazes de limitar o potencial destrutivo da poligalacturonase (PG) fúngica e, assim, constituem um tipo importante dentre os diversos sistemas de defesa do tecido vegetal frente à infecção fúngica. No mamão, o ataque fitopatogênico é o principal causador de danos pós-colheita, e sua alta susceptibilidade pode estar relacionada com a baixa eficácia ou pouca abundância dos meios de defesa anti-fitopatogênica. Uma vez que isso pode estar relacionado com as PGIPs e nada se conhece sobre o papel dessas proteínas nesse fruto, o objetivo do trabalho foi clonar os genes das PGIPs de mamoeiro e definir seu padrão de expressão em diferentes órgãos e tecidos e ao longo do amadurecimento. Para tanto, foram identificadas no genoma do mamoeiro, a partir de critérios que definem a identidade de uma PGIP, duas prováveis sequências dentre 13 candidatas iniciais. Ambas foram clonadas a partir das sequências genômicas e de cDNA, sequenciadas e sua identidade confirmada, sendo denominadas Cppgip4 e Cppgip6. As análises de expressão relativa em diversos tecidos e idades fisiológicas do mamoeiro demonstraram que os dois genes apresentaram diminuição da expressão com o desenvolvimento dos frutos, sendo que com a polpa apresentou redução dos níveis de expressão relativa de Cppgip4 em até 18 vezes dos 30 dias pós-antese (DPA) ao 9 dias pós-colheita (DPC). Na casca também houve redução significativa da expressão com o desenvolvimento. Para a expressão absoluta, nos frutos, sementes, caules, raízes e folhas, o número de cópias de ambos os transcritos decresceu com o desenvolvimento, sendo cerca de cem mil vezes mais abundante para Cppgip6 que para Cppgip4. As tentativas de expressão de proteínas recombinantes em Pichia pastoris não geraram resultado positivo, provavelmente em virtude das condições ideais de indução ainda não terem sido estabelecidas corretamente para o ensaio. A atividade de PGIPs extraídas diretamente do tecido foi medida por análise de difusão em ágar empregando pectinase de Aspergillus niger e revelou uma tendência à diminuição da porcentagem de inibição à medida que os frutos se desenvolveram, em concordância com os resultados da análise por qPCR. O conjunto de resultados sugere que a expressão varia com o estádio de desenvolvimento do fruto e é tecido-específica, possivelmente em resposta à diferente susceptibilidade dos tecidos ao ataque fitopatogênico, indicando que menores níveis de transcritos e atividade no amadurecimento, período de maior susceptibilidade, poderiam sinalizar para a regulação do processo degradativo marcando o início da senescência. / Polygalacturonase inhibiting proteins (PGIPs) present in plant cell walls are able to inhibit the destructive action of fungal polygalacturonase (PG). In this way, they constitute an important type of plant defense system against fungal infections. In papaya fruit, the pathogenic attack is the main cause of post harvesting loss, and its high susceptibility may be related to the low efficiency or low abundance of anti-phytopathogenic defense. Since this fact could be related to PGIPs expression and little is known about the response of these proteins in the fruit, the aim of the present work was to clone the genes of PGIPs papaya fruit and set their expression pattern in different organs and tissues throughout fruit ripening. Thus, two probable PGIP sequences among 13 initial candidates were identified in the papaya genome by using specific criteria. Both sequences were cloned from cDNA and genomic samples, sequenced and confirmed its identity, and then being named Cppgip4 and Cppgip6. Analysis of relative expression in various tissues at different physiological stages demonstrated that both genes were down regulated during fruit development. The relative expression levels of Cppgip4 in papaya pulp was reduced by 18 times from the 30 days post-anthesis (DPA) to the 9 days post-harvest (DPH). Similarly, gene expression in papaya peel was significant down regulated during fruit development. Absolute expression analysis revealed gene expressions in the fruit pulp, seed, stem, root and leaf were also down regulated within development. Moreover, Cppgip6 gene expression was a hundred thousand times more abundant than Cppgip4. The recombinant protein expression in Pichia pastoris did not result positive, probably because of the ideal conditions of induction have not been properly established the yet. The activity of PGIPs extracted directly from the tissue was measured by the agar diffusion assay using pectinase from Aspergillus niger and showed decrease of inhibition during fruit developed in accordance with the results of the qPCR analysis. Based on the results it is possible to suggest the expression of these genes varies temporally with the developmental stage of the fruit and is tissue-specific, possibly in response to the different susceptibility of tissues to pathogenic attack. In addition, the lowest levels of PGIP expression were achieved at the fruit ripening, when the susceptibility to fungal infection is high and could signal for regulating the degradation process characterized by the onset of senescence.

Agar diffusion assay

Clonagem

Cloning

Difusão em ágar

Expressão gênica

Fitopatógenos

Gene expression

PGIP

PGIP

Phytopathogens

Clonagem e análise da expressão de genes de proteínas de mamão papaia com atividade inibitória sobre poligalacturonases fúngicas / Cloning and expression analysis of papaya genes encoding proteins with inhibitory activity against fungal polygalacturonases

Sabrina Garcia Broetto

10 July 2013

As proteínas inibidoras de poligalacturonases (PGIPs) presentes na parede celular são capazes de limitar o potencial destrutivo da poligalacturonase (PG) fúngica e, assim, constituem um tipo importante dentre os diversos sistemas de defesa do tecido vegetal frente à infecção fúngica. No mamão, o ataque fitopatogênico é o principal causador de danos pós-colheita, e sua alta susceptibilidade pode estar relacionada com a baixa eficácia ou pouca abundância dos meios de defesa anti-fitopatogênica. Uma vez que isso pode estar relacionado com as PGIPs e nada se conhece sobre o papel dessas proteínas nesse fruto, o objetivo do trabalho foi clonar os genes das PGIPs de mamoeiro e definir seu padrão de expressão em diferentes órgãos e tecidos e ao longo do amadurecimento. Para tanto, foram identificadas no genoma do mamoeiro, a partir de critérios que definem a identidade de uma PGIP, duas prováveis sequências dentre 13 candidatas iniciais. Ambas foram clonadas a partir das sequências genômicas e de cDNA, sequenciadas e sua identidade confirmada, sendo denominadas Cppgip4 e Cppgip6. As análises de expressão relativa em diversos tecidos e idades fisiológicas do mamoeiro demonstraram que os dois genes apresentaram diminuição da expressão com o desenvolvimento dos frutos, sendo que com a polpa apresentou redução dos níveis de expressão relativa de Cppgip4 em até 18 vezes dos 30 dias pós-antese (DPA) ao 9 dias pós-colheita (DPC). Na casca também houve redução significativa da expressão com o desenvolvimento. Para a expressão absoluta, nos frutos, sementes, caules, raízes e folhas, o número de cópias de ambos os transcritos decresceu com o desenvolvimento, sendo cerca de cem mil vezes mais abundante para Cppgip6 que para Cppgip4. As tentativas de expressão de proteínas recombinantes em Pichia pastoris não geraram resultado positivo, provavelmente em virtude das condições ideais de indução ainda não terem sido estabelecidas corretamente para o ensaio. A atividade de PGIPs extraídas diretamente do tecido foi medida por análise de difusão em ágar empregando pectinase de Aspergillus niger e revelou uma tendência à diminuição da porcentagem de inibição à medida que os frutos se desenvolveram, em concordância com os resultados da análise por qPCR. O conjunto de resultados sugere que a expressão varia com o estádio de desenvolvimento do fruto e é tecido-específica, possivelmente em resposta à diferente susceptibilidade dos tecidos ao ataque fitopatogênico, indicando que menores níveis de transcritos e atividade no amadurecimento, período de maior susceptibilidade, poderiam sinalizar para a regulação do processo degradativo marcando o início da senescência. / Polygalacturonase inhibiting proteins (PGIPs) present in plant cell walls are able to inhibit the destructive action of fungal polygalacturonase (PG). In this way, they constitute an important type of plant defense system against fungal infections. In papaya fruit, the pathogenic attack is the main cause of post harvesting loss, and its high susceptibility may be related to the low efficiency or low abundance of anti-phytopathogenic defense. Since this fact could be related to PGIPs expression and little is known about the response of these proteins in the fruit, the aim of the present work was to clone the genes of PGIPs papaya fruit and set their expression pattern in different organs and tissues throughout fruit ripening. Thus, two probable PGIP sequences among 13 initial candidates were identified in the papaya genome by using specific criteria. Both sequences were cloned from cDNA and genomic samples, sequenced and confirmed its identity, and then being named Cppgip4 and Cppgip6. Analysis of relative expression in various tissues at different physiological stages demonstrated that both genes were down regulated during fruit development. The relative expression levels of Cppgip4 in papaya pulp was reduced by 18 times from the 30 days post-anthesis (DPA) to the 9 days post-harvest (DPH). Similarly, gene expression in papaya peel was significant down regulated during fruit development. Absolute expression analysis revealed gene expressions in the fruit pulp, seed, stem, root and leaf were also down regulated within development. Moreover, Cppgip6 gene expression was a hundred thousand times more abundant than Cppgip4. The recombinant protein expression in Pichia pastoris did not result positive, probably because of the ideal conditions of induction have not been properly established the yet. The activity of PGIPs extracted directly from the tissue was measured by the agar diffusion assay using pectinase from Aspergillus niger and showed decrease of inhibition during fruit developed in accordance with the results of the qPCR analysis. Based on the results it is possible to suggest the expression of these genes varies temporally with the developmental stage of the fruit and is tissue-specific, possibly in response to the different susceptibility of tissues to pathogenic attack. In addition, the lowest levels of PGIP expression were achieved at the fruit ripening, when the susceptibility to fungal infection is high and could signal for regulating the degradation process characterized by the onset of senescence.

Clonagem

Difusão em ágar

Expressão gênica

Fitopatógenos

PGIP

Agar diffusion assay

Cloning

Gene expression

PGIP

Phytopathogens

Caracterização da expressão de inibidores de poligalacturonases (PGIPs) em resposta aos estresses biótico e abiótico em plantas de feijão comum (Phaseolus vulgaris L.) / Characterization of the expression of polygalacturonase inhibitors (PGIPs) in response to biotic and abiotic stresses in plants of common bean (Phaseolus vulgaris L.)

OLIVEIRA, Marília Barros

26 November 2011

Made available in DSpace on 2014-07-29T15:16:31Z (GMT). No. of bitstreams: 1 Dissertacao de Mestrado Marilia.pdf: 852367 bytes, checksum: 8be87e653d87766bc06bb6d29f5cb94e (MD5) Previous issue date: 2011-11-26 / Sclerotinia sclerotiorum (Lib.) de Bary is a necrotrophic fungal pathogen that causes the disease known as white mold in many plants. During infection, it secretes several endopolygalacturonases (PGs) to degrade cell wall pectin. To counteract the action of PGs, plants express polygalacturonases-inhibiting proteins (PGIPs) that reduce the hydrolytic activity of endo-PGs and favor the accumulation of oligogalacturonides (OGs) with are elicitors of a variety of defense responses. PGIPs belong to the superfamily of leucine rich repeat (LRR) proteins and play important roles in resistance to infection of pathogens. In this study, real time RT-PCR was used to evaluate the expression of Pvpgip genes in dry bean plants (Phaseolus vulgaris L) submitted to different stress conditions. Transcriptional analysis showed that these genes are differentially expressed and activated by biotic (S. sclerotiorum infection) and abiotic (wound or methyl jasmonate treatment) stresses. Pvpgip1 was induced at early stages of the infection especially for plants treated with methyl jasmonate (MeJA) in which the transcript accumulation was higher. High levels of Pvpgip2 and Pvpgip3 expression were observed in infect plants treated or not with MeJA. All treatments showed induction of gene Pvpgip4. These results show that the/ four genes Pvpgip respond differently to treatment with the resistance inducer, fungal infection and wound. / Sclerotinia sclerotiorum (Lib.) de Bary é um fungo necrotrófico patogênico causador da doença conhecida como mofo branco em muitas plantas. Durante a infecção, secreta várias endopoligalacturonases (endo-PGs) que degradam a pectina da parede celular da planta hospedeira. Para contrapor à ação das PGs, as plantas produzem proteínas inibidoras de poligalacturonases (PGIPs) que reduzem a atividade hidrolítica das endo-PGs e favorecem o acúmulo de oligogalacturonídeos (OGs) que são indutores de uma variedade de respostas de defesa. As PGIPs pertencem à superfamília de proteínas ricas em repetições de leucina (LRR), e desempenham um papel importante na resistência à infecção de patógenos. Neste estudo, RT-PCR em tempo real foi usada para avaliar a expressão de genes Pvpgip em plantas de feijão comum (Phaseolus vulgaris L.) submetidas a diferentes condições de estresse. A análise transcricional mostrou que estes genes são ativados por fatores bióticos (infecção por S. sclerotiorum) e abióticos (injúria ou tratamento com metil jasmonato) e que existe uma variação em termos de expressão. Pvpgip1 foi induzido nos estágios iniciais da infecção, principalmente para as plantas tratadas com metil jasmonato (MeJA) em que o acúmulo deste transcritos foi maior. Altos níveis de expressão dos genes Pvpgip2 e Pvpgip3 foram observados nas plantas tratadas ou não com MeJA. Todos os tratamentos mostraram indução do gene Pvpgip4. Estes resultados mostraram que os quatro genes Pvpgip respondem diferentemente ao tratamento com indutor de resistência, infecção por fungo e injúria.

Endopoligalacturonases

metil jasmonato

feijão comum

PGIP

Sclerotinia sclerotiorum

Endopolygalacturonases

methyl jasmonate

Dry bean

PGIP

Sclerotinia sclerotiorum

Molecular and phenotypic characterisation of grapevines expressing non-vinifera PGIP encoding genes

Moyo, Mukani

03 1900

Thesis (MSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Plants are constantly exposed to biotic and abiotic stress inducing factors that threaten their existence. Biotic factors such as pathogens are the cause of huge yield losses to crop plants worldwide with fungal pathogens debatably constituting the worst damage. Fungal pathogens such as Botrytis cinerea, which has a wide host range, release cell wall degrading enzymes called endopolygalacturonases (ePGs) during plant infection. These ePGs break down the pectin component of the cell wall, thus providing an entry route, as well as nutrients for the fungus. Plants have evolved mechanisms to counteract and suppress the action of the ePGs. This is achieved through the action of cell wall associated proteins called polygalacturonaseinhibiting proteins, PGIPs. PGIPs directly inhibit ePGs and their inhibitory action also prolongs the existence of longer chain oligogalacturonide residues which are believed to elicit a cascade of defence responses. In grapevine, a PGIP encoding gene, VvPGIP1, was previously isolated and characterised. VvPGIP1, as well as nine non-vinifera grapevine PGIPs have been expressed in tobacco and shown to be potent antifungal proteins that caused the transgenic tobacco to have strong resistance phenotypes against Botrytis in whole plant infection assays. Following on the tobacco study, two of the non-vinifera PGIPs were expressed in cultivars of the susceptible Vitis vinifera. Characterisation of the putative transgenic population showed that transgene integration was successful, the transgenes were being expressed and there were at least 29 transgenic lines with independent integration events. The transgenic lines were confirmed to have active PGIPs (transgene-derived) in their leaves. Crude protein extracts from 22 lines exhibited 100% inhibition against crude B. cinerea PGs (BcPGs). The plant lines with positive transgene integration, expression, independent integration events and exhibiting 100% transgene-derived PGIP activity were further selected for whole plant and detached leaf antifungal assays where they were challenged with B. cinerea. The whole plant infection assay showed that expression of the non-vinifera PGIPs in V. vinifera promotes susceptibility to B. cinerea, not resistance. This surprising result could perhaps be explained by a quicker and stronger recognition between the pathogen and the host and the stronger activation of defence responses in the host. A more active hypersensitive response in the host would benefit Botrytis being a necrotroph. The type of lesions and the onset and speed of lesion development observed on the transgenics lines versus the wild type support this possibility. Knowledge gaps with regards to the efficiency of the ePG inhibition by the nonvinifera PGIPs during infection of grapevine tissue; the potential changes that might be caused by expressing PGIPs in a grapevine host with a native PGIP with high homology to the transgenes (including potential gene silencing) and the potential impact on defence signalling and defence responses all provides further avenues of study to elucidate this very interesting phenotype further. Overall, this study provides a comprehensively characterised population of transgenic plants that provides useful resources for in vivo analysis of PGIP function in defence, where the host plant harbours a native copy of the PGIP encoding gene. / AFRIKAANSE OPSOMMING: Plante word voortdurend blootgestel aan biotiese en abiotiese faktore, wat stres veroorsaak en hul bestaan bedreig. Biotiese faktore, soos patogene, veroorsaak groot verliese in wêreldwye gewasopbrengste, met swampatogene wat moontlik die grootste skade veroorsaak. Swampatogene, soos Botrytis cinerea, wat ‘n wye reeks gasheerplante kan infekteer, stel selwand-afbrekende ensieme tydens plantinfeksie vry, wat as endo-poligalakturonases (ePG’s). bekend staan. Hierdie ePG’s breek die pektienkomponent van die selwand af, wat gevolglik as ‘n ingangspunt dien,asook voedingstowwe vir die swam verskaf. Plante het meganismes ontwikkel om die aktiwiteit van hierdie ePG’s te bekamp en te onderdruk. Die aktiwiteit van die selwand-geassosieërde proteïene, genaamd poligalakturonase-inhiberende proteïene (PGIP’s), speel hier ‘n rol. PGIP’s inhibeer ePG’s direk en hul inhiberende aktiwiteit verleng ook die bestaan van langketting oligogalakturoniedresidu’s, wat blykbaar ‘n kaskade van weerstandsreaksies kan inisieer. ‘n PGIP-koderende geen, VvPGIP1, is voorheen uit wingerd geïsoleer en gekarakteriseer. VvPGIP1, asook nege nie-vinifera wingerd-PGIP’s is voorheen in tabak uitgedruk en bevestig as proteïene met sterk anti-swamaktiwiteit, soos bevestig deur die bevinding dat die transgeniese tabak ‘n weerstandsfenotipe teen Botrytis in heelplant-infeksietoetse het. Ná die tabakstudie is twee van die nie-vinifera PGIP’s uitgedruk in vatbare V. vinifera-kultivars. Karakterisering van die vermeende transgeniese bevolking het getoon dat die transgeen-integrasie suksesvol was, dat die transgeen uitgedruk word en dat daar ten minste 29 transgeniese lyne met onafhanklike integrasie gebeurtenisse geskep is. Daar is verder bevestig dat die transgeniese lyne aktiewe PGIP’s (transgeen-afkomstig) in hul blare het. Ongesuiwerde proteïenekstrakte van 22 lyne het 100% inhibisie teen ‘n mengsel van ongesuiwerde B. cinerea PGs (BcPGs) getoon. Die plantlyne met positiewe transgeenintegrasie en -uitdrukking, asook onafhanklike integrasiegebeure en wat 100% transgeen-afkomstige PGIP-aktiwiteit getoon het, is verder aan heel-plant en verwyderde blaarswaminfeksies met B cinerea onderwerp. Die heelplantinfeksietoetse het getoon dat uitdrukking van nie-vinifera PGIP’s in V. vinifera ‘n toename, in plaas van ‘n afname, in vatbaarheid teen B. cinerea veroorsaak. Hierdie verbasende resultaat kan moontlik toegeskryf word aan ‘n vinniger en sterker herkenningsreaksie tussen patogeen en gasheer en die moontlike sterker stimulering van weerstandsreaksies in die gasheer. ‘n Meer aktiewe hipersensitiewe reaksie in die gasheer sal tot die voordeel van Botrytis, wat ‘n nektrotroof is, wees. Die tipe letsel, asook die aanvang en spoed van letselontwikkeling wat waargeneem is in transgeniese lyne teenoor die wilde-tipe ondersteun hierdie moontlikheid. Gapings in kennis ten opsigte van die doeltreffendheid van die ePG-inhibisie deur die nievinifera PGIP’s tydens infeksie van wingerdweefsel, die moontlike veranderinge (insluitend ‘n moontlike geenuitdowingseffek) wat veroorsaak kan word deur die uitdrukking van PGIP-gene in ‘n kultivar met ‘n inheemse en baie homoloë PGIP-geen, kon ‘n invloed op weerstandseine en weerstandsreaksies gehad het. Hierdie aspekte lewer verdere studiemoontlikhede om hierdie interessante fenotipe verder te verklaar.Algeheel lewer hierdie studie ‘n breedvoeriggekarakteriseerde bevolking trangeniese plante, wat dien as nuttige hulpbronne vir in vivoanalise van PGIP se funksie in siekteweerstandbiedendheid, veral waar die gasheerplant ‘n inheemse kopie van die PGIP-koderende geen huisves.

Non-vinifera pathogens

PGIP

Endopolygalacturonase

Grapes -- Diseases and pests

Development of the polygalacturonase inhibiting protein (PGIP) for delivery of foreign proteins to the surfaces of plant cells

Feltman, Natalie Ruth

22 February 2012

Polygalacturonase-inhibiting proteins (PGIPs) are cell wall-associated plant proteins that inhibit endopolygalacturonases (endo-PGs) from phytopathogenic fungi. For proteins to confer resistance to invading plant pathogens, it is preferred that they are either associated with the plant cell wall or secreted into the intercellular spaces where they can act almost immediately upon pathogen attack. The bactericidal efficacy of the Hen Egg White Lysozyme (HEWL) has previously been unequivocally demonstrated in transgenic plants; however, most of the protein remains intracellular. It was hypothesized that bean PGIP1, that has previously been expressed correctly in transgenic tomato plants and was found to inhibit the endopolygalacturonase activity of Stenocarpella maydis in a reducing sugar assay, would deliver the HEWL protein to the intercellular spaces due to its inherent translocation to the plant cell wall by means of a translational fusion between bean pgip1 and hewl genes. In this study, the efficacy of such a translational fusion was determined. The bean pgip1-hewl fusion was inserted into the binary vector pCAMBIA2300 and transformed into Nicotiana tabacum cv. LA Burley 21 plants by Agrobacterium-mediated transformation. Phenotypically normal transgenic plants were produced. Stable transgene insertion into the transgenic N. tabacum genomes was verified by PCR and Southern blot analyses. To demonstrate the efficacy of the bean PGIP1-HEWL fusion, independent homogenate and intercellular fluid protein extracts were prepared from transgenic N. tabacum leaf material. Protein extracts prepared so as to enrich for PGIP activity were tested in vitro for inhibition of S. maydis endo-PGs whereas protein extracts for HEWL activity were tested for lysis of Micrococcus luteus cells. Biochemical assays showed that bean PGIP1-HEWL inhibited S. maydis endo-PGs and cleaved M. luteus cell walls sufficiently to suggest that the PGIP1- HEWL fusion was structurally and functionally stable. Total protein extracts from the PGIP-HEWL and HEWL transgenic plants showed similar levels of HEWL specific activity, whereas intercellular fluid samples from PGIP-HEWL transgenic plants showed high activity in contrast to HEWL plants. With the success of showing protein activity in vitro of HEWL in intercellular spaces, bean PGIP1 can be recommended as a vehicle for delivery of other proteins to cell surfaces. Copyright 2006, University of Pretoria. All rights reserved. The copyright in this work vests in the University of Pretoria. No part of this work may be reproduced or transmitted in any form or by any means, without the prior written permission of the University of Pretoria. Please cite as follows: Feltman, NR 2006, Development of the polygalacturonase inhibiting protein (PGIP) for delivery of foreign proteins to the surfaces of plant cells, MSc dissertation, University of Pretoria, Pretoria, viewed yymmdd < http://upetd.up.ac.za/thesis/available/etd-07152008-111131 / > E416/gm / Dissertation (MSc)--University of Pretoria, 2012. / Plant Science / unrestricted

Phytopathogenic fungi

Plant cells

Foreign proteins

Pgip

Polygalacturonase inhibiting protein

UCTD

The Evolution of Fungal Pectinases in Glycosyl Hydrolase Family 28 and Their Association with Ecological Strategy

Sprockett, Daniel David

02 December 2009

No description available.

Bioinformatics

Biology

Ecology

Genetics

Microbiology

Molecular Biology

gene family evolution

gene birth-and-death

pectinase

glycosyl hydrolase family 28

fungi

biotroph

necrotroph

PGIP

polygalacturonase