OvisOme: atualização da base de dados de Ovis aries

Introduction: The Omics sciences are part of the research and diagnostic routines in human health. However, their application in veterinary sciences is still sparse, albeit the increasing number of proteomics studies published, especially regarding farm animals. The amount of information accumulated by these high throughput techniques, makes the existence of specialized databases fundamental. These databases are essential to store, annotate and make available to the scientific community, all the information gathered by the different omics studies, so that researchers can use it to understand the physio pathological mechanisms underlying sheep diseases, as well as to develop new and improved diagnostic, prognostic and therapeutic strategies. Objetive: The aim of this work is to present the OvisOme database and to demosntrate how it can be used to understand the molecular mechanisms urderlying sheep disease. Methodologies: OvisOme compiles all proteins identified by proteomics studies of Ovis aries. The proteins are annotated as to the sample characterization, the proteomics techniques used and all the data the authors refer regarding the donor sheep’s health. Results: The database currently has 1451 proteins, associated to 8 diseases and 10 breeds. When compared to other proteomics databases, the OvisOme stores and displays more information than other databases not specific for sheep, such as UniProt. Conclusion: OvisOme is a valuable tool for the study of the molecular mechanisms underlying sheep health and disease.

Proposal to minimize the difficulty of recording abortion data in sheep

Background: The most frequent viral diseases which can cause abortion in sheep are Blue tongue, Border disease virus, Cache Valley fever and Schmallenberg virus. The diagnosis of abortion, namely virus-induced represents a challenge to field clinicians, since clinical signs presented by the dam are discrete, non-specific and variable (Agerhom et al., 2015). On the other hand, while some foetuses reveal characteristic and visible malformations, others do not reveal any lesions. In face of it, definitive diagnosis requires an appropriate history collection, as well as sending fresh samples, namely abortion material, foetus, placenta and umbilical cord, to a specialty laboratory, to obtain a precise diagnosis. Objectives: The authors suggest a registration method of all mandatory data, in order to further assist the diagnosis of viral diseases at the laboratories, including the most frequent congenital malformations reported in sheep abortions. Methods: Abortion samples of suspected viral origin were collected and all data were registered, in worktables optimized for this purpose. Results: The authors document, using macroscopic figures lesions of malformations in abortions, emphasizing the frequency and the importance of documenting each case, proposing practical and effective worktables to assist the fieldwork. Conclusions: Field clinician’s awareness of the importance of early detection of viral diseases causing abortion outbreaks stimulates a proper data collection for each case of abortion, in order to contribute to a precise diagnosis and posterior consistent epidemiological studies, which may allow diminishing of economic losses.