Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.10.3.2 (laccase)
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Hypovirulent strain NB58 of Cryphonectria parasitica contains a dsRNA virus with a genome size of approximately 12.5 kb. Although NB58 is very stable in culture, a phenotypically-distinct sector arose which was found to be dsRNA-free. Attempts to infect the mutant strain, termed NB58F, by pairing with the parent strain (NB58) or other conversion-compatible, virus-containing strains have been unsuccessful. DNA fingerprint analysis showed that NB58, NB58F, and a representative dsRNA-free single-conidial isolate of NB58 termed NB58-19, were isogenic. The mutant culture was phenotypically stable, and all single-conidial progeny had the NB58F morphology. NB58F was intermediate between NB58 and NB58-19 in laccase production and virulence. Pigmentation and sporulation of NB58F, however, were reduced to near the level of NB58. In mating studies, NB58F functioned only as the male in sexual crosses. The mutant phenotype (F) predominated by a ratio of 5:2 among the ascospore progeny of F-type x wild-type crosses. These data suggest the lesion is nuclear and may be associated with a chromosomal abnormality. Attempts to infect the NB58F-type ascospore progeny failed, whereas the wild-type progeny were successfully infected with strains compatible with one or the other parent at a frequency of about 34%. Hyphal anastomosis and movement of cytoplasmic material occurred when NB58F was paired with a compatible strain, suggesting that the lesion is involved in viral maintenance as opposed to initial virus infection. NB58F represents the first virus-resistant isolate of C. parasitica to be described.
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PMID:Isolation and characterization of a virus-resistant mutant of Cryphonectria parasitica. 787 48

In order to find immune-relevant factors responsible for virus resistance and response to the virus infection, the suppression subtractive hybridisation method was employed to identify differentially expressed genes and their expression profiles in the hepatopancreas of the white spot syndrome virus (WSSV) resistant and susceptible Pacific white shrimp (Litopenaeus vannamei). Two forward subtractive libraries (at 0 and 48h time point) and two reverse subtractive libraries (at 0 and 48h time point) were constructed, and more than 1200 clones were sequenced, of which 40 differentially expressed genes were identified. These genes encode proteins corresponding to a wide range of functions, including defence-related proteins, enzymes, transcription factors, apoptotic-related proteins, intracellular components potentially related to signaling cascades, metabolic proteins, and cytoskeletal protein. Five genes (laccase, carboxypeptidase B, H(+)-transporting ATP synthase, Acyl-ConA-binding protein (ACBP), and cortical granule protein with LDL-receptor) are found for the first time in shrimp and their expressions were up-regulated in the virus-resistant shrimp. Among the 40 genes, 30 showed up-regulation in the virus-resistant shrimp comparing with susceptible shrimp, while 10 genes showed down-regulation. Haemocyanin was the most abundant gene in our forward subtractive libraries. In addition, chathepsin L, ecdysteroid regulated protein, zinc proteinase, lectin, sterol carrier protein-X, lysozyme, cortical granule protein with LDL-receptor, leucine-rich repeat LGI family, fatty acid binding protein, and preamylase all showed up-regulation in the resistant shrimp. Furthermore, a number of genes encoding apoptotic-related proteins and antioxidant enzymes were expressed at a higher level in the virus-resistant shrimp. The high expression of the immune-relevant genes in response to the virus infection provides a new insight for further study in the shrimp innate immunity.
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PMID:Profiling of differentially expressed genes in hepatopancreas of white spot syndrome virus-resistant shrimp (Litopenaeus vannamei) by suppression subtractive hybridisation. 1715 65