Pyramiding dsRNAs increases phytonematode tolerance in cotton plants.

MAIN CONCLUSION: Host-derived suppression of nematode essential genes decreases reproduction of Meloidogyne incognita in cotton. Root-knot nematodes (RKN) represent one of the most damaging plant-parasitic nematode genera worldwide. RNAi-mediated suppression of essential nematode genes provides a novel biotechnological strategy for the development of sustainable pest-control methods. Here, we used a Host Induced Gene Silencing (HIGS) approach by stacking dsRNA sequences into a T-DNA construct to target three essential RKN genes: cysteine protease (Mi-cpl), isocitrate lyase (Mi-icl), and splicing factor (Mi-sf), called dsMinc1, driven by the pUceS8.3 constitutive soybean promoter. Transgenic dsMinc1-T4 plants infected with Meloidogyne incognita showed a significant reduction in gall formation (57-64%) and egg masses production (58-67%), as well as in the estimated reproduction factor (60-78%), compared with the susceptible non-transgenic cultivar. Galls of the RNAi lines are smaller than the wild-type (WT) plants, whose root systems exhibited multiple well-developed root swellings. Transcript levels of the three RKN-targeted genes decreased 13- to 40-fold in nematodes from transgenic cotton galls, compared with those from control WT galls. Finally, the development of non-feeding males in transgenic plants was 2-6 times higher than in WT plants, indicating a stressful environment for nematode development after RKN gene silencing. Data strongly support that HIGS of essential RKN genes is an effective strategy to improve cotton plant tolerance. This study presents the first application of dsRNA sequences to target multiple genes to promote M. incognita tolerance in cotton without phenotypic penalty in transgenic plants.

Influence of Cotton Root System Size on Tolerance to Rotylenchulus reniformis.

The factors that influence the ability of cotton to minimize yield loss despite parasitism by Rotylenchulus reniformis (i.e., tolerance) were evaluated for 12 cotton genotypes. Reproduction of R. reniformis and total length of the root system were measured under greenhouse conditions, and the relationship of those variables to yield loss caused by R. reniformis in infested fields was evaluated. Values for nematodes per gram of root and root length were standardized by setting the genotype with greatest value as 100% and then calculating a percentage for each genotype. There was significant variability among genotypes in yield loss, resistance, and root length. Average yield loss for the genotypes ranged from 10.4% for IAC 26RMD to 43.2% for IMACD 5675B2RF. The least nematode reproduction was on IAC 26RMD, which had 49.6% of the reproduction on the susceptible check, Deltapine 16. The genotype with the shortest total root length was 34% less than the genotype with the greatest length. There was a significant linear relationship between percentage yield loss caused by R. reniformis and root length and nematodes per gram of root, both expressed as a percentage of the maximum, represented by the following equation: Yield loss (%) = 16.1258 - 0.1918*(% maximum root length) + 0.3728*(% maximum eggs + vermiform/g of roots). We conclude that tolerance to R. reniformis in cotton is influenced by the size of the root system and the parasitic load on the plant (nematodes per gram of root). Management approaches that increase root growth may lower the parasitic load, thereby reducing losses in cotton to R. reniformis.

Complete genome sequences of two new virus isolates associated with cotton blue disease resistance breaking in Brazil.

Since 2006, Brazilian cotton (Gossypium hirsutum) crops planted with cultivars that are resistant to cotton blue disease have developed a new disease termed "atypical" cotton blue disease or atypical vein mosaic disease. Here, we describe the complete genomes of two virus isolates associated with this disease. The new virus isolates, called CLRDV-Acr3 and CLRDV-IMA2, were found to have a high degree of nucleotide and amino acid sequence similarity to previously described isolates of cotton leafroll dwarf virus, the causal agent of cotton blue disease. However, their P0 proteins were 86.1 % identical. These results show that this new disease is caused by a new CLRDV genotype that seems to have acquired the ability to overcome cotton blue disease resistance.

Comportamento de genótipos de algodoeiro no Estado de São Paulo: produtividade, resistência a doenças e qualidade da fibra / Performance of cotton genotypes in the state of São Paulo: yield, disease resistance and fiber quality

Foram realizados 16 experimentos em campo, no ano agrícola de 2001/02, nas principais regiões produtoras de algodão do Estado de São Paulo, objetivando avaliar o comportamento de 12 genótipos de algodoeiro em relação à produtividade, à qualidade da fibra e à resistência a seis doenças da cultura. Foi utilizado o delineamento de blocos completos ao acaso, com quatro repetições, cada uma delas representada por duas linhas de 5 metros de comprimento. Diferenças substanciais foram observadas entre os genótipos com respeito à produtividade, quer de algodão em caroço, quer de fibra. Apesar de se mostrar destacada em alguns genótipos, a porcentagem de fibra não constituiu fator predominante na produção de fibra por área. Entre as 12 cultivares estudadas, somente "CNPA ITA 90" e "BRS IPÊ" apresentaram bom índice de resistência à ramularia. Por outro lado, a "IAC 24" apresentou bom índice para murcha de Fusarium, nematóides e ramulose, as três doenças mais destrutíveis. A maioria das cultivares e linhagens estudadas revelou suscetibilidade a uma ou mais das doenças estudadas, não apresentando genótipo com resistência múltipla a todas as doenças consideradas.

In the 2001/02 growing season 16 field experiments were conducted in the main cotton producing regions of the state of São Paulo to evaluate the performance of 12 cotton genotypes for yield, fiber quality and resistance to six diseases of the crop. A randomized complete block design with four replications, which were represented by two five-meter-long rows now used. Substantial differences between genotypes were observed for both cotton seed and fiber. Although outstanding in some genotypes, the fiber percentage was not a determining factor of fiber yield per area. Among the 12 genotypes studied, only 'CNPA ITA 90' and 'BRS IPÊ' presented good index of resistance to the ramularia. On the other hand, 'IAC 24' presented good index for Fusarium, nematodes and ramulose, the three more destructible diseases.Most of the evalueted cultivars and lines were susceptible to one or more diseases; none of them showed multiple resistance to all diseases.