[Morphologic and molecular characterization of Phomopsis longicolla(teleomorph unknown: Diaporthales) from tempered and subtropical regions of Argentina]. / Caracterización morfológica y molecular de una colección de aislamientos de Phomopsis longicolla (teleomorfo desconocido: Diaporthales) de la región templada y subtropical de Argentina.

Diaporthe (teleomorpho)-Phomopsis - (anamorph) (DP) is a fungal group of great genetic diversity with over 900 species associated to a wide host range that includes cultivated and uncultivated species, forest, fruit trees and weeds. DP isolates are hemibiotrophs and have different sources of primary inoculum as stubble and seeds to restart cycles of parasitism - saprophytism. They colonize host tissues from early plant stages and establish different nutritional relationships, acting as endophytic and necrotrophic fungi. The plasticity of the Phomopsis genus has favored its expansion to different agro-ecosystems and various hosts constituting an epidemiological risk. The objective was to validate the identity and evaluate the biological relationships among 12 isolates of P longicolla and D. phaseolorum var. sojae (anamorph P phaseoli var. sojae) obtained in different tempered and subtropical agro-environments of Argentina, in order to analyze the variability and strategies for preserving fungal biodiversity. Macromorphological attributes (such as texture and color of colonies, stroma shape and distribution, pycnidia and perythecia shape and distribution) and micro-morphological characteristics (such as size and shape of conidia, asci and ascospores) allowed identifying three new isolates as P longicolla. A complementary molecular analysis was also made to overcome the limitations derived from the morphological analysis, thus the AFP.8413 isolate was finally identified as P longicolla. The molecular characterization was useful to identify the evaluated isolates and to group them in four taxa of the Diaporthe-Phomopsis complex: ten isolates were included in P. longicolla, one isolate was included in D. phaseolorum var. sojae (anamorph P. phaseoli var. sojae), one isolate was identified as D. phaseolorum var. caulivora and two isolates were included in D. phaseolorum var. meridionalis. The use of phenotipic and molecular tools have contributed to an accurate identification of P longicolla, and comprehension about the biological relationships (homo or heterothallic hibridizations) among D. phaseolorum varieties (P phaseoli) and species of Diaporthe-Phomopsis. This allowed also a better understanding of the mechanisms of fungic plasticity, to colonize and expand their host range and genetic variability, promoting thus their biodiversity conservation. Rev. Biol. Trop. 63 (3): 871-884. Epub 2015 September 01.

Caracterización morfológica y molecular de una colección de aislamientos de Phomopsis longicolla(teleomorfo desconocido: Diaporthales)de la región templada y subtropical de Argentina

Diaporthe(telomorfo) - Phomopsis(anamorfo) (DP) constituye un grupo fúngico de amplia diversidad genética con más de 900 especies distribuidas en un amplio rango de hospedantes que incluye especies cultivadas y no cultivadas, forestales, frutales y malezas. Los aislamientos de DP son hemi-biótrofos y disponen de diferentes fuentes de inóculo primario, como el rastrojo y las semillas, para reiniciar sus ciclos de parasitismo-saprofitismo. Ellos colonizan los tejidos del hospedante desde los estadios tempranos del desarrollo y establecen relaciones nutricionales de endofitia y necrotrofia fúngica. La plasticidad del género Phomopsisha favorecido su expansión a diferentes agro-ecosistemas y hospedantes constituyendo un importante riesgo epidemiológico. El objetivo fue validar la identidad y evaluar las relaciones biológicas de 12 aislamientos de P. longicollay D. phaseolorumvar. sojaeobtenidos en distintos agro-ambientes templados y subtropicales de Argentina, para analizar la variabilidad y estrategias de conservación de la bio-diversidad fúngica. Las cualidades macro-morfo-lógicas(textura y color de colonias, forma y distribución de estromas, desarrollo, forma y distribución de cuerpos fructíferos), y los caracteres micro-morfológicos(tamaño y forma de conidios, ascos y ascosporas) permitieron identificar a tres nuevos aislamientos de P. longicollaincluidos en el complejo D/P. El análisis molecular complementario corrigió las limitaciones derivadas de la caracterización basada sólo en marcadores morfológicos y logró reubicar al aislamiento AFP.8413 de identidad dudosa, en el nodo correspondiente a P. longicolla.De esta manera, la caracterización molecular definió la identidad de los aislamientos y los ubicó en los 4 taxones del complejo DP: diez aislamientos fueron incluidos en Plo(AFP.Gpo 4.4, AFP.Gpo 3.5, AFP.Gpo 4.3, AFP.Gpo 3.4, AFP.CaA, AFP. CaB, AFP.B5L16, AFP.B4L17, AFP.227B2, AFP.8413), un aislamiento incluido en Dps(AFP.Qcol7), un aislamiento en Dpc(AFP.Dpc16) y dos aislamientos incluidos en Dpm(AFP.Dpm109 y AFP.Dpm112). La adecuada identificación de P. longicollay el avance en el conocimiento de las relaciones biológicas (hibridaciones homo o heterotálicas) entre variedades de D. phaseolorum (P. phaseoli)y especies de Diaporthe- Phomopsispermiten comprender la plasticidad para colonizar un amplio rango de hospedantes, los mecanismos de variabilidad genética y la preservación de la diversidad fúngica.

Diaporthe(teleomorpho)-Phomopsis (anamorph) (DP) is a fungal group of great genetic diversity with over 900 species associated to a wide host range that includes cultivated and uncultivated species, forest, fruit trees and weeds. DP isolates are hemi-biotrophs and have different sources of primary inoculum as stubble and seeds to restart cycles of parasitism -saprophytism. They colonize host tissues from early plant stages and establish different nutritional relationships, acting as endophytic and necrotrophic fungi. The plasticity of the Phomopsisgenus has favored its expansion to different agro-ecosystems and various hosts constituting an epidemiological risk. The objective was to validate the identity and evaluate the biological relationships among 12 isolates of P. longicollaand D. phaseolorumvar. sojae(anamorph P. phaseolivar. sojae)obtained in different tempered and subtropical agro-environments of Argentina, in order to analyze the variability and strategies for preserving fungal biodiversity. Macro-morphological attributes (such as texture and color of colonies, stroma shape and distribution, pycnidia and perythecia shape and distribution) and micro-morphological characteristics (such as size and shape of conidia, asci and ascospores) allowed identifying three new isolates as P. longicolla.A complementary molecular analysis was also made to overcome the limitations derived from the morphological analysis, thus the AFP.8413 isolate was finally identified as P. longicolla.The molecular characterization was useful to identify the evaluated isolates and to group them in four taxa of the Diaporthe-Phomopsiscomplex: ten isolates were included in P. longicolla,one isolate was included in D. phaseolorumvar. sojae(anamorph P. phaseolivar. sojae),one isolate was identified as D. phaseolorumvar. caulivoraand two isolates were included in D. phaseolorumvar. meridi-onalis.The use of phenotipic and molecular tools have contributed to an accurate identification of P. longicolla,and comprehension about the biological relationships (homo or heterothallic hibridizations) among D. phaseolo-rumvarieties (P. phaseoli)and species of Diaporthe-Phomopsis.This allowed also a better understanding of the mechanisms of fungic plasticity, to colonize and expand their host range and genetic variability, promoting thus their biodiversity conservation.

Preservation of Solanum pimpinellifolium genomic fragments in recombinant genotypes improved the fruit quality of tomato.

Five recombinant inbred lines obtained from the F2 generation of an interspecific cross between cultivar, Caimanta (Cai, Solanum lycopersicum) and wild accession, LA722 (P, S. pimpinellifolium) were crossed to obtain the second cycle hybrids (SCH). Eleven fruit quality traits were assessed in evaluating phenotypic variability among genotypes P, Cai, F1 (Cai x P), five RILs, and 10 SCH. One of the five recombinant inbred lines and three SCH had higher values than P, as the best genotype for shelf life. Sequence-related amplified polymorphism was used as the molecular method for detecting polymorphism among these 18 genotypes. The percentage of polymorphism in RILs and SCH was 61% and 66% respectively. Moreover, some bands detected in P were present in SCH. Several multivariate analyses were performed to find agreement between the phenotypic variability observed for fruit quality traits and the polymorphism obtained from sequence-related amplified polymorphism markers. A general Procrustes analysis estimated that there was a consensus proportion of 75% between phenotypic and molecular data. There was considerable preservation of some bands from the wild genotype, which could increase the variability in fruit quality traits in populations where the genetic diversity is limited.

Phenotypic and molecular characterization of selected tomato recombinant inbred lines derived from the cross Solanum lycopersicum x S. pimpinellifolium.

An important trait defining fresh tomato marketability is fruit shelf life. Exotic germplasm of Solanum pimpinellifolium is able to prolong shelf life. Sixteen recombinant inbred lines with differing values of shelf life and fruit weight were derived by antagonistic-divergent selection from an interspecific cross involving Solanum pimpinellifolium. The objective of this study was to evaluate these recombinant inbred lines for many fruit quality traits such as diameter, height, size, acidity, colour, firmness, shelf life and weight, and to characterize them by amplified fragment length polymorphism markers. For most traits, a wide range of genetic variability was found and a wide range of molecular variation was also detected. Both sets of data allowed the identification of recombinant inbred lines by means of cluster analysis and principal component analysis. Genetic association among some amplified fragment length polymorphism markers and fruit quality traits, suggested by the principal component analysis, could be identified by single point analysis. Potential molecular markers underlying agronomical traits were detected in these recombinant inbred lines.