The development of veterinary vaccines: a review of traditional methods and modern biotechnology approaches

Sérgio Jorge, Odir Antônio Dellagostin
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引用次数: 62

Abstract

The immunization of animals has been carried out for centuries and is generally accepted as the most cost-effective and sustainable method of controlling infectious veterinary diseases. Up to twenty years ago, most veterinary vaccines were either inactivated organisms that were formulated with an oil-based adjuvant or live attenuated vaccines. In many cases, these formulations were not very effective. The discovery of antigen/gene delivery systems has facilitated the development of novel prophylactic and therapeutic veterinary vaccines. To identify vaccine candidates in genomic sequences, a revolutionary approach was established that stems from the assumption that antibodies are more readily able to access surface and secreted than cytoplasm proteins; as such, they represent ideal vaccine candidates. The approach, which is known as reverse vaccinology, uses several bioinformatics algorithms to predict antigen localization and it has been successfully applied to immunize against many veterinary diseases. This review examines some of the main topics that have emerged in the veterinary vaccine field with the use of modern biotechnology techniques.

兽医疫苗的发展:传统方法和现代生物技术方法的综述
动物免疫接种已经进行了几个世纪,并被普遍认为是控制传染性兽医疾病的最具成本效益和可持续的方法。直到20年前,大多数兽医疫苗要么是用油基佐剂配制的灭活生物体,要么是减毒活疫苗。在许多情况下,这些配方不是很有效。抗原/基因传递系统的发现促进了新型预防性和治疗性兽医疫苗的发展。为了在基因组序列中确定候选疫苗,建立了一种革命性的方法,该方法源于抗体比细胞质蛋白更容易接近表面和分泌的假设;因此,它们是理想的候选疫苗。这种方法被称为反向疫苗学,它使用几种生物信息学算法来预测抗原定位,并已成功地应用于许多兽医疾病的免疫。本文综述了利用现代生物技术在兽医疫苗领域出现的一些主要问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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