how would i draw the structure of a dipeptide which is made up of the following; Glycine and phenylalanine?
please could somebody point me in the right direction?
I do not know
Since this is not my area of expertise, I searched Google under the key words "dipeptide glycine phenylalanine structure" to get these possible sources:
http://scholar.google.com/scholar?q=dipeptide+Glycine+phenylalanine+structure&hl=en&client=safari&rls=en&um=1&ie=UTF-8&oi=scholart
http://books.google.com/books?id=bB8XnCykRmIC&pg=PA73&lpg=PA73&dq=dipeptide+glycine+phenylalanine+structure&source=web&ots=wjDt7hBHup&sig=hWfWvcc1XTawMBGkInqoQEqCaPk#PPP1,M1
http://www.chem.canterbury.ac.nz/courses/tests_exams/2005exams/exams/chem114_midyear05.pdf
http://stainsfile.info/StainsFile/theory/science/protein.htm
(Broken Link Removed)
In the future, you can find the information you desire more quickly, if you use appropriate key words to do your own search.
I hope this helps. Thanks for asking.
To draw the structure of a dipeptide made up of glycine and phenylalanine, you will need to understand the chemical structure of amino acids and how they connect to form a peptide bond.
Here's a step-by-step guide on how to draw the structure of the dipeptide:
1. Start by drawing the structure of glycine. Glycine is the simplest amino acid and has a hydrogen atom as its side chain.
2. Next, draw the structure of phenylalanine. Phenylalanine has a benzene ring as its side chain.
3. Identify the amino and carboxyl groups of each amino acid. These groups are essential for peptide bond formation.
4. Connect the carboxyl group of glycine with the amino group of phenylalanine. This connection forms a peptide bond.
5. Once the two amino acids are connected, adjust the positions of the side chains to ensure they are appropriately positioned relative to the peptide bond.
6. Finally, add any necessary hydrogen atoms and double bonds to complete the structure.
Remember to consider the spatial arrangement of the atoms and the 3-dimensional nature of the molecule. The dipeptide structure can be represented in either a linear or a 3-dimensional format.
If you prefer a visual guide or want to explore more complex dipeptide structures, using molecular modeling software or online chemical drawing tools can be extremely helpful. These tools allow you to accurately represent the structure and visualize it in a variety of ways.