Novos Isolados De Trichoderma Antagônicos A Sclerotinia Sclerotiorum

Forty-nine isolates of Trichoderma from the Brazilian Midwest were evaluated for their antagonistic activity in vitro against Sclerotinia sclerotiorum (causal agent of white mold), which were then identified based on their nuclear ribosomal ITS sequences. Paired culture tests showed that all isolates exhibited some antagonism, with a maximum of 77% mycelial inhibition and complete inhibition of sclerotia production. Two isolates were found to be the most promising biocontrol agents, considering both antagonistic parameters (CEN1253 - T. koningiopsis and CEN1265 - T. brevicompactum). Five different species were identified: T. harzianum (23), T. spirale (9), T. koningiopsis (8), T. brevicompactum (7) and T. asperellum (2). These isolates are stored in the Embrapa Fungi Collection for Biological Control and the information obtained in the experiments will be incorporated into the database of biological assets within the genetic resources information system (Allele) and be made available for further studies. © 2016, Universidade Estadual de Campinas UNICAMP. All rights reserved.16

Species concepts in Cercospora: spotting the weeds among the roses

The genus Cercospora contains numerous important plant pathogenic fungi from a diverse range of hosts. Most species of Cercospora are known only from their morphological characters in vivo. Although the genus contains more than 5 000 names, very few cultures and associated DNA sequence data are available. In this study, 360 Cercospora isolates, obtained from 161 host species, 49 host families and 39 countries, were used to compile a molecular phylogeny. Partial sequences were derived from the internal transcribed spacer regions and intervening 5.8S nrRNA, actin, calmodulin, histone H3 and translation elongation factor 1-alpha genes. The resulting phylogenetic clades were evaluated for application of existing species names and five novel species are introduced. Eleven species are epi-, lecto- or neotypified in this study. Although existing species names were available for several clades, it was not always possible to apply North American or European names to African or Asian strains and vice versa. Some species were found to be limited to a specific host genus, whereas others were isolated from a wide host range. No single locus was found to be the ideal DNA barcode gene for the genus, and species identification needs to be based on a combination of gene loci and morphological characters. Additional primers were developed to supplement those previously published for amplification of the loci used in this study. TAXONOMIC NOVELTIES: New species - Cercospora coniogrammes Crous & R.G. Shivas, Cercospora delaireae C. Nakash., Crous, U. Braun & H.D. Shin, Cercospora euphorbiae-sieboldianae C. Nakash., Crous, U. Braun & H.D. Shin, Cercospora pileicola C. Nakash., Crous, U. Braun & H.D. Shin, Cercospora vignigena C. Nakash., Crous, U. Braun & H.D. Shin. Typifications: epitypifications - Cercospora alchemillicola U. Braun & C.F. Hill, Cercospora althaeina Sacc., Cercospora armoraciae Sacc., Cercospora corchori Sawada, Cercospora mercurialis Pass., Cercospora olivascens Sacc., Cercospora violae Sacc.; neotypifications - Cercospora fagopyri N. Nakata & S. Takim., Cercospora sojina Hara

Internal stipe necrosis of Agaricus bisporus Etiology and molecular genetic studies

SIGLEAvailable from British Library Document Supply Centre-DSC:DXN003740 / BLDSC - British Library Document Supply CentreGBUnited Kingdo

Survey of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotypes in Brazil using RAPD markers

In 1991, the poinsettia strain, silverleaf whitefly or B biotype of Bemisia tabaci was detected in Brazil. This variant is a far more serious agricultural pest than the previously prevalent non-B (BR) biotype. The correct identification of B. tabaci is problematic since it is highly polymorphic with extreme plasticity in key morphological characters that vary according to the host. RAPD-PCR was used to survey the B biotype and other biotypes of B. tabaci in Brazil. Whiteflies were collected from cultivated plants and weeds from 57 different localities and on 27 distinct crops. RAPD analyses using two selected 10-mer primers reliably identified the BR biotype and the B biotype of B. tabaci and also differentiated other whitefly species. The presence of the B biotype was confirmed in 20 Brazilian states. The BR and B biotypes of B. tabaci were found to coexist in the whitefly populations of three different localities: Jaboticabal, SP; Rondonópolis and Cuiabá, MT, and Goiânia, GO.Em 1991, um novo biótipo de Bemisia tabaci denominado de raça B, mosca branca da poinsétia ou mosca da folha prateada foi detectado no Brasil. Esta praga trouxe muitos prejuízos e danos à agricultura nacional, por ser mais agressiva do que a existente anteriormente, conhecida como B. tabaci ou B. tabaci biótipo BR (não B). A relação taxonômica entre B. tabaci e B. tabaci biótipo B não é clara e não existem evidências morfológicas consistentes que possam distinguir esses dois biótipos. RAPD-PCR tem sido utilizada para identificação de biótipos presentes nas populações, utilizando-se, como padrões de referência, adultos de Bemisia tabaci das raças A e B provenientes dos Estados Unidos. As coletas de mosca branca foram feitas em 27 culturas e plantas daninhas em 57 localidades do país. As populações foram então analisadas, observando-se que a população predominante em 20 estados brasileiros é de B. tabaci biótipo B. Os biótipos BR e B foram encontrados coabitando a mesma região, em três diferentes localidades: Jaboticabal, SP; Rondonópolis e Cuiabá, MT e Goiânia, GO

Cloning of a chitinase gene from Ewingella americana, a pathogen of the cultivated mushroom, Agaricus bisporus

We have isolated a gene encoding a chitinase (EC 3.2.1.14) from Ewingella americana, a recently described pathogen of the mushroom Agaricus bisporus. This gene, designated chiA (EMBL/Genbank/DDBJ accession number X90562), was cloned by expression screening of a plasmid-based E. americana HindIII genomic library in Escherichia coli using remazol brilliant violet-stained carboxymethylated chitin incorporated into selective medium. The chiA gene has a 918-bp ORF, terminated by a TAA codon, with a calculated polypeptide size of 33.2 kDa, likely corresponding to a previously purified and characterised 33-kDa endochitinase from E. americana. The deduced amino acid sequence shares 33% identity with chitinase II from Aeromonas sp. No. 10S-24 and 7.8% identity with a chitinase from Saccharopolyspora erythraeus. Homology to other chitinase sequences was otherwise low. The peptide sequence deduced from chiA lacks a typical N-terminal signal sequence and also lacks the chitin binding and type III fibronectin homology units common to many bacterial chitinases. The possibility that this chitinase is not primarily adapted for the environmental mineralisation of pre-formed chitin, but rather for the breakdown of nascent chitin, is discussed in the context of mushroom disease.<br>O gene que codifica uma quitinase (EC 3.2.1.14) foi isolado de Ewingella americana, recentemente descrita como patógeno do cogumelo Agaricus bisporus. Este gene, denominado chiA (EMBL/Genebank/DDBJ número de acesso X9061), foi clonado e selecionado a partir de livraria genômica construída por digestão do DNA de E. americana com HindIII e ligação em plasmídio de expressão em E. coli, utilizando meio seletivo contendo quitina carboximetilada, corada com "remazol brilliant violet'' para seleção de clones. O gene chiA apresenta uma ORF de 918 bp, código terminador TAA, tendo o tamanho do polipeptídeo sido calculado como 33,2 kDa, o qual corresponde ao tamanho de 33 kDa da endoquitinase previamente purificada de E. americana. A seqüência deduzida de aminoácidos apresenta 33% de identidade com a quitinase II de Aeromonas sp. No. 10S-24 e 7,8% de identidade com quitinase de Saccharopolyspora erythraeus. Baixa homologia com outras quitinases foi observada. A seqüência deduzida de aminoácidos de chiA não apresenta sinal típico de N-terminal e também não apresenta típico sítio de ligação com quitina nem unidades de homologia à fibronectina do tipo III, comuns a muitas quitinases bacterianas. Existe a possibilidade de que esta quitinase não seja primariamente adaptada para mineralização de quitina pré-formada no ambiente, sendo discutida a digestão e quebra de quitina nascente, no contexto de doenças de cogumelos

Survival in soil and detection of co-transformed Trichoderma harzianum by nested PCR Sobrevivência em solo e detecção de co-transformantes de Trichoderma harzianum por PCR "nested"

The objective of this work was to evaluate the survival of two Trichoderma harzianum co-transformants, TE 10 and TE 41, carrying genes for green fluorescent protein (egfp) and for resistance to benomyl, during four weeks in a contained soil microcosm. Selective culture media were used to detect viable fungal material, whose identity was confirmed by the observation of the fluorescent phenotype by direct epifluorence microscopy. PCR using two nested primer pairs specific to the egfp gene was also used to detect the transformed fungi. Although it was not possible to reliably detect the egfp gene directly from soil extracts, an enrichment step involving selective culture of soil samples in liquid medium prior to DNA extraction enabled the consistent detection of the T. harzianum co-transformants by nested PCR for the duration of the incubation period.<br>O objetivo deste trabalho foi avaliar a sobrevivência de dois co-transformantes de Trichoderma harzianum, TE 10 e TE 41, expressando o gene da proteína de fluorescência verde (egfp) e resistência a benomil, por um período de quatro semanas em microcosmo de solo, sob condições controladas. Foi utilizado um meio seletivo para detecção de material fúngico viável, o qual foi confirmado por observação quanto ao fenótipo de fluorescência em microscópio de epifluorescência direta. O fungo transformado foi detectado por PCR "nested", utilizando-se dois pares de primers específicos para o gene egfp. Foram utilizados meios líquidos enriquecidos no cultivo de amostras de solo, permitindo uma detecção consistente de co-transformantes de T. harzianum, uma vez que não foi possível a detecção do gene egfp por PCR de amostras de DNA extraídas diretamente de solo