Author: Piyusha Sharma
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A significant amount of biological data and information have been made available to the scientific community by the Human Genome Project. This scenario shows the myriad arenas in which bioinformatics have found utility. The use of bioinformatics in cancer study and treatment is now widespread, and it is evident that scientists, academics and researchers have rapidly and thoroughly explored the bioinformatics tools that are regarded to be essential for the therapies. The advancement of scientific research has been aided by publicly available resources. In order to exploit this new knowledge effectively, the era of big data and genomics has brought up a necessity for collaboration. Here, we provide a description of the web resources for cancer genomics research and assign ratings based on the variety of cancer kinds, sample size, comprehensiveness of the omics data, and user experience. We anticipate that this introduction will raise knowledge of these resources and make it easier for the cancer research community to use them. The resources we assessed include data repositories and analysis tools.
Cancer, Bioinformatics, databases, web tools, genomics, research
The current review collection provides in-depth analyses of the key bioinformatics resources and databases utilised in the inquiry. Recent advances in genomics and related information technologies have accelerated the connection between scientific study and therapeutic application through the creation of a public data repository and analytical tools [29]. Scientific research has advanced thanks to readily accessible resources. The genomics and big data era has created a demand for collaboration and data sharing in order to successfully utilise this new information. Here, we describe the online resources for cancer genomics research and assess them based comprehensiveness of the omics data, and user-friendliness. We believe that by introducing the resources now, the cancer research community will be better aware of them and be able to use them more readily. The resources reviewed include data repositories and analysis tools. Although the field of bioinformatics has demonstrated to have a big impact on the medical industry, it can also be extremely important in fields like agriculture, raising livestock, and even space exploration. This collection of articles emphasises the variety of methods and data sets that are being developed in bioinformatics techniques to address difficult problems like how to prioritise lead compounds with the potential to disrupt the tumor-immune microenvironment and how to more accurately predict clinical outcomes.
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