biotechnology

BIOTECHNOLOGY THE MOST AMZAZING FIELD. Recently my brother saw amazing spider man he asked me how they do it. I told him that it’s a biology. Biology and technology together or hand in hand in biotechnology. Biotechnology was originated from microbiology that time we can’t do perform experiment on human till date we can’t and we shouldn’t. now I am going to tell you biotechnology impact and progress.The purpose of this review is to survey current, emerging and predicted future biotechnologies which are impacting, or are likely to impact in the future on the life sciences, with a projection for the coming 20 years. This review is intended to discuss current and future technical strategies, and to explore areas of potential growth during the foreseeable future. Information technology approaches have been employed to gather and collate data. Twelve broad categories of biotechnology have been identified which are currently impacting the life sciences and will continue to do so. In some cases, technology areas are being pushed forward by the requirement to deal with contemporary questions such as the need to address the emergence of anti-microbial resistance. In other cases, the biotechnology application is made feasible by advances in allied fields in biophysics (e.g. biosensing) and biochemistry (e.g. bio-imaging). In all cases, the biotechnologies are underpinned by the rapidly advancing fields of information systems, electronic communications and the World Wide Web together with developments in computing power and the capacity to handle extensive biological data. A rationale and narrative is given for the identification of each technology as a growth area. These technologies have been categorized by major applications, and are discussed further. This review highlights:

·         Biotechnology has far-reaching applications which impinge on every aspect of human existence.The applications of biotechnology are currently wide ranging and will become even more diverse in the future. Access to supercomputing facilities and the ability to manipulate large, complex biological datasets, will significantly enhance knowledge and biotechnological development. A lot of money has been invested into such processes, unfortunately associated with a lot of failures. The main challenge is to reach high yields in the process which is the only way to compete with other sources of production. Although, a few great successes still exist, for example Global Bioenergies, a French-German biotech company which signed a partnership with Audi to produce the biogases of tomorrow directly from bacteria. But ultimately, microorganisms won’t be the only future source of energy. It will be complementary to other sources of energy. It could be of great use when it comes to replacing fossil fuels such as oil, which is still mandatory to use in some fields like space exploration or planes. If you look at the rapid development of this movement – founded only in 2008 – you could clearly imagine that the personal biotech will be closer than ever by 2030.