Sandbox Reserved 1383

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Current revision (17:56, 1 March 2018) (edit) (undo)
 
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Type 2 diabetes is quite different from type 1 diabetes in that insulin is present in the body. The cells insulin receptors become resistant to insulin which means that glucose no longer is taken up and blood sugar levels remain high. This causes beta cells in the pancreas to work harder to produce more and more insulin until they become exhausted to the point that very little insulin is being produced.
Type 2 diabetes is quite different from type 1 diabetes in that insulin is present in the body. The cells insulin receptors become resistant to insulin which means that glucose no longer is taken up and blood sugar levels remain high. This causes beta cells in the pancreas to work harder to produce more and more insulin until they become exhausted to the point that very little insulin is being produced.
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== Structural Highlights ==
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== Structural highlights ==
Insulin is composed of two polypeptide chains, an A chain and a B chain. The A chain is composed of 21 amino acids while the B chain is 30 amino acids long. They are joined together by 3 <scene name='77/777703/Disulfide_bridges_of_insulin/2'>disulfide bridges</scene>, 2 linking the A and B chains together, and one internally linking the A chain. Both chains contain <scene name='77/777703/Alpha_helices_of_insulin/1'>alpha helices</scene> but no beta pleated sheets. Binding of insulin to its insulin receptor is limited to the B chain. The general tertiary structure of insulin is highly conserved among species, and can be used to treat human deficiencies. Pig insulin is a common substitute for human insulin.
Insulin is composed of two polypeptide chains, an A chain and a B chain. The A chain is composed of 21 amino acids while the B chain is 30 amino acids long. They are joined together by 3 <scene name='77/777703/Disulfide_bridges_of_insulin/2'>disulfide bridges</scene>, 2 linking the A and B chains together, and one internally linking the A chain. Both chains contain <scene name='77/777703/Alpha_helices_of_insulin/1'>alpha helices</scene> but no beta pleated sheets. Binding of insulin to its insulin receptor is limited to the B chain. The general tertiary structure of insulin is highly conserved among species, and can be used to treat human deficiencies. Pig insulin is a common substitute for human insulin.

Current revision

This Sandbox is Reserved from January through July 31, 2018 for use in the course HLSC322: Principles of Genetics and Genomics taught by Genevieve Houston-Ludlam at the University of Maryland, College Park, USA. This reservation includes Sandbox Reserved 1311 through Sandbox Reserved 1430.
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Insulin

Escherichia coli reca protein-bound DNA (PDB entry 3rec)

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