What does NBD mean in HUMAN GENOME
NBD, or Nucleotide Binding Domain, is a highly conserved protein domain present throughout all three domains of life. This structure binds nucleotides and is important for many metabolic processes such as ATPase activity and substrate binding. Below are 5 relevant questions about the NBD and their answers.
NBD meaning in Human Genome in Medical
NBD mostly used in an acronym Human Genome in Category Medical that means Nucleotide Binding Domain
Shorthand: NBD,
Full Form: Nucleotide Binding Domain
For more information of "Nucleotide Binding Domain", see the section below.
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Essential Questions and Answers on Nucleotide Binding Domain in "MEDICAL»GENOME"
What is a NBD?
A NDB, or Nucleotide Binding Domain, is a highly conserved protein domain present throughout all three domains of life. It binds nucleotides and plays an important role in many metabolic processes.
How do nucleotides interact with the NBD?
The structure of the NBD has two binding sites that interact with both ribose and base components of a nucleotide. It also contains several amino acid residues which form hydrogen bonds to the phosphate backbone of the nucleotide.
What type of metabolic processes does the NBD regulate?
The NBD regulates several metabolic processes including ATPase activity and substrate binding. In addition, it can serve as a scaffold for protein-protein interactions or signal transduction pathways.
Does each organism have different types of NBDs?
While there might be slight variations between individual organisms, the structure of an NDB is generally conserved across species due to its vital role in metabolism.
How many amino acid residues are found in an NDB?
The length of an individual protein's specific domain can vary depending on its function but typically ranges between 60—120 residues synthetized by ribosomes from DNA coding sequences into proteins through translation process.
Final Words:
The nucleotide binding domain (NBD) is an important component of all living organisms as it helps regulate various metabolic processes such as ATPase activity and substrate binding. This molecular structure binds to nucleotides through its two binding sites which contain several amino acid residues forming hydrogen bonds to these molecules' phosphate backbones. Its size and structure can vary depending on each organism's needs but generally ranges between 60-120 residues synthesis by ribosomes from DNA coding sequences into proteins via translation process.
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