# Structural genomics > area of genetic research **Wikidata**: [Q2583975](https://www.wikidata.org/wiki/Q2583975) **Wikipedia**: [English](https://en.wikipedia.org/wiki/Structural_genomics) **Source**: https://4ort.xyz/entity/structural-genomics ## Summary Structural genomics is an area of genetic research that focuses on determining the three-dimensional structures of proteins and other biomolecules to understand their functions. It is a subclass of genomics, which is an interdisciplinary field of biology. ## Key Facts - Structural genomics is a specialized field within genomics. - It involves studying the three-dimensional structures of proteins and biomolecules. - The field is interdisciplinary, drawing from biology and other scientific disciplines. - Structural genomics aims to understand the functional roles of proteins and other biomolecules. - The term "structural genomics" is also known in other languages, including Spanish ("Genomica estructural"), Japanese ("構造ゲノム学"), and Hindi ("संरचना जीनोमिक्स"). - It has Wikipedia articles in multiple languages, including English, Spanish, and Japanese. - The field is recognized in academic and encyclopedic sources, including the Encyclopedia Britannica and the Encyclopedia of China. - Structural genomics has a presence on Wikimedia Commons, with a dedicated category for related images. ## FAQs ### Q: What is the main goal of structural genomics? A: The main goal of structural genomics is to determine the three-dimensional structures of proteins and other biomolecules to understand their functions in biological processes. ### Q: How does structural genomics differ from genomics? A: While genomics is a broader field that includes the study of genes and genetic information, structural genomics specifically focuses on the three-dimensional structures of proteins and biomolecules. ### Q: In which languages is structural genomics well-documented? A: Structural genomics has Wikipedia articles and other documentation available in English, Spanish, Japanese, and several other languages. ## Why It Matters Structural genomics plays a crucial role in advancing our understanding of biological processes at the molecular level. By determining the three-dimensional structures of proteins and other biomolecules, researchers can uncover their functional roles, which is essential for developing new drugs, improving agricultural practices, and understanding fundamental biological mechanisms. This field bridges the gap between genetic information and its functional outcomes, making it a critical component of modern biology and medicine. The interdisciplinary nature of structural genomics ensures that it draws from and contributes to various scientific disciplines, fostering innovation and discovery. ## Notable For - Being a specialized subclass of genomics, focusing on molecular structures. - Having a strong presence in academic and encyclopedic sources, including the Encyclopedia Britannica. - Being documented in multiple languages, reflecting its global relevance. - Utilizing Wikimedia Commons for sharing and organizing related images. - Contributing to advancements in drug development and biological research. ## Body ### Definition and Scope Structural genomics is a specialized area within genomics that focuses on determining the three-dimensional structures of proteins and other biomolecules. It aims to understand the functional roles of these molecules in biological processes. ### Language and Documentation The field is well-documented in multiple languages, including English, Spanish, Japanese, and Hindi. Wikipedia articles on structural genomics are available in several languages, and it is referenced in academic and encyclopedic sources such as the Encyclopedia Britannica and the Encyclopedia of China. ### Interdisciplinary Nature Structural genomics is an interdisciplinary field, drawing from biology and other scientific disciplines. It plays a crucial role in advancing our understanding of biological processes at the molecular level. ### Impact on Research By determining the three-dimensional structures of proteins and biomolecules, structural genomics contributes to the development of new drugs, improves agricultural practices, and enhances our understanding of fundamental biological mechanisms. This makes it a critical component of modern biology and medicine. ### Recognition and Presence Structural genomics has a strong presence in academic and encyclopedic sources, including the Encyclopedia Britannica. It is also recognized in academic databases and has a dedicated category on Wikimedia Commons for related images. ## References 1. Freebase Data Dumps. 2013 2. [OpenAlex](https://docs.openalex.org/download-snapshot/snapshot-data-format)