The acronym "DDBJ" stands for DNA Data Bank of Japan. The spelling of this word can be explained using the International Phonetic Alphabet (IPA), which represents the sounds of spoken language. The first letter "D" is pronounced as /di:/, the second letter "D" as /di:/, the letter "B" as /bi:/, and the letter "J" as /dʒeɪ/. Together, the IPA transcription of "DDBJ" sounds like /di:dʒeɪbi:/. The correct spelling of this acronym is important for accurate communication within the scientific community.
DDBJ stands for DNA Data Bank of Japan. It is a globally renowned biological database that collects, preserves, and disseminates nucleotide sequence data, primarily related to DNA molecules. Established in 1986, DDBJ operates under the coordination of the National Institute of Genetics in collaboration with the Institute for Chemical Research and the Institute of Medical Science at the University of Tokyo.
As a key member of the International Nucleotide Sequence Database Collaboration (INSDC), DDBJ plays an essential role in the timely and accurate management of genetic information. It partners with the European Nucleotide Archive (ENA) and the National Center for Biotechnology Information (NCBI) to ensure that researchers have free and easy access to worldwide nucleotide sequence data.
DDBJ archives and provides data submission services for a wide range of biological research, including studies involving genes, genomes, and gene expression. It receives submissions from academic institutes, research organizations, and individual researchers in Japan and collaborates with international data centers to standardize and deliver the data to scientists globally.
This database not only plays a crucial role in facilitating scientific research but also contributes to various fields such as drug development, evolutionary studies, medical genetics, and agriculture. The comprehensive collection of nucleotide sequence data in DDBJ serves as a valuable resource for scientists, enabling them to gain insights into the molecular basis of life and perform advanced analyses to deepen our understanding of genetics.