muramidase and Mycoses

Topics: Animals; Animals, Newborn; Bacterial Infections; Blood Bactericidal Activity; Body Temperature; Chick Embryo; Chickens; Egg Proteins; Egg Shell; Female; Infections; Intestines; Muramidase; Mycoses; Ovalbumin; Phagocytosis; Skin; Transferrin; Virus Diseases; Vitelline Membrane

Lysozyme is well-known as an immune effector in the immune system. Here we identified three genes including one c-type lysozyme, Btlysc, and two i-type lysozymes, Btlysi1 and Btlysi2, from the whitefly Bemisia tabaci. All three lysozymes were constitutively expressed in different tissues and developmental stages, but the two types of lysozymes showed different expression patterns. The expression levels of Btlysi1 and Btlysi2 were dramatically induced after the whitefly fed with different host plants while the expression level of Btlysc kept unchanged. After fungal infection and begomovirus acquisition, Btlysc expression was significantly upregulated while Btlysi1 and Btlysi2 expression were basically not induced. Furthermore, we found that Btlysc showed muramidase and antibacterial activities. Altogether, our results suggest that the two types of lysozymes act in two different ways in B. tabaci, that is, Btlysc is involved in the whitefly immune system while Btlysi1 and Btlysi2 may play a role in digestion or nutrition absorption.

Topics: Animals; Beauveria; Begomovirus; Cloning, Molecular; DNA Virus Infections; Gene Expression Regulation; Gossypium; Hemiptera; Immunity, Innate; Insect Proteins; Muramidase; Mycoses; Pest Control; Protein Isoforms; Transcriptome

Frogs are a diverse group of vertebrates for which limited genomic resources are available. Natural frog populations face a multitude of threats, including habitat degradation, infectious disease, and environmental change. Characterizing the functional genomics of anuran tissues in general - and the immune system in particular - will enhance our knowledge of genetic and epigenetic responses to environmental threats and inform conservation and recovery efforts.. To increase the number of species with genomic datasets and characterize gene expression in immune-related tissues, we sequenced the transcriptomes of three tissues from two frogs (Espadarana prosoblepon and Lithobates yavapaiensis) on the Roche 454 GS FLX platform. Our sequencing produced 8881 E. prosoblepon and 5428 L. yavapaiensis annotated gene products after de novo assembly and Gene Ontology classification. Transcripts of the innate and acquired immune system were expressed in all three tissues. Inflammatory response and acquired immunity transcripts were significantly more diverged between E. prosoblepon and L. yavapaiensis compared to innate immunity and immune system development transcripts. Immune-related transcripts did not show an overall elevated rate of functional evolution, with the exception of glycosyl proteases, which include lysozymes, central bacterial and fungal-killing enzymes of the innate immune system.. The three frog transcriptomes provide more than 600 Mbp of new genomic data, and will serve as a valuable framework for future comparative studies of non-model anurans. Additionally, we show that immune gene divergence varies by functional group and that transcriptome studies can be useful in comparing rates of evolutionary change across gene families.

Topics: Animals; Anura; Costa Rica; Evolution, Molecular; Female; Gene Ontology; Genome; High-Throughput Nucleotide Sequencing; Immune System; Inflammation; Intestines; Male; Muramidase; Mycoses; Panama; Polymorphism, Single Nucleotide; Proteins; Ranidae; Skin; Spleen; Transcriptome

Chalkbrood, caused by Ascosphaera apis (Maassen and Claussen) Olive and Spiltor, is a cosmopolitan fungal disease of honey bee larvae (Apis mellifera L.) for which there is no chemotherapeutic control. We evaluated the efficacy of lysozyme-HCl, an inexpensive food-grade antimicrobial extracted from hen egg white, for the treatment of chalkbrood disease in honey bee colonies. Our study compared three doses of lysozyme-HCl in sugar syrup (600, 3,000, and 6,000 mg) administered weekly for 3 wk among chalkbrood-inoculated colonies, colonies that were inoculated but remained untreated, and colonies neither inoculated or treated. Lysozyme-HCl at the highest dose evaluated was found to suppress development of chalkbrood disease in inoculated colonies to levels observed in uninoculated, untreated colonies, and did not adversely affect adult bee survival or brood production. Honey production was significantly negatively correlated with increased disease severity but there were no significant differences in winter survival among treatment groups. Based on our results, lysozyme-HCl appears to be a promising, safe therapeutic agent for the control of chalkbrood in honey bee colonies.

Topics: Animals; Beekeeping; Bees; Female; Honey; Host-Pathogen Interactions; Muramidase; Mycoses; Population Density; Spores, Fungal

The effects of season and variations in the prevalence of infectious disease on the concentrations and daily production of breast-milk immunoproteins were studied in 152 rural Gambian mothers and their children up to 26 months post-partum. IgA, IgG, IgM, C3, C4, lactoferrin, lysozyme and secretory component concentrations and breast-milk volumes were measured longitudinally over a six month period which encompassed dry and rainy seasons. No increase in the production of any immunoprotein was observed at the time of maximum prevalence of serious infectious diseases, especially diarrhoea, in the children. Enhanced secretion of certain immunoproteins was noted in mothers of children aged 9-18 months at the beginning of the rainy season. There was some evidence that this may have been associated with skin sepsis, particularly impetigo, in the children. The production of most immunoproteins fell during the rainy season. This was not the result of declining maternal food intakes as similar decreases were seen for women receiving a dietary supplement.

Topics: Bacterial Infections; Complement C3; Complement C4; Developing Countries; Female; Gambia; Humans; Immunoglobulins; Infant; Infant Nutritional Physiological Phenomena; Infant, Newborn; Lactation; Lactoferrin; Milk, Human; Muramidase; Mycoses; Pregnancy; Rural Population; Seasons; Secretory Component; Virus Diseases