Generally it is considered that Inulin is the polymer of fructose.
Beta 1,2 linked. Hence it is not digested in pur body.
It if often considered as heteropolymer because it contains two types of stereo isomers of fructose.
the monomer which forms insulin is sillicon.
Amino acids.
Polymer made up of amino acids.
amino acid
Amino acids
amino acids
Cellulose is a carbohydrate composed of glucose units. It is not made of proteins.
All living organisms are composed of structural and functional units that are called cells. Cells are the smallest unit of life that can be replicated.
Nucleic acid is a polymer. The monomer of it is a nucleotide.
there are not repeating units in a monomer.
A polymer is a large molecule which is composed of repeating structural units called monomer connected to each other by covalent chemical bonds.
.
Insulin is a peptide hormone composed of 51 amino acids and has a molecular weight of 5808 Da. It is divided in two chain of 21 and 30 amino acid bonded with sulphide bond and have quarternary structure Insulin is produced and stored in the body as a hexamer (a unit of six insulin molecules), while the active form is the monomer. The hexamer is an inactive form with long-term stability which serves as a way to keep the highly reactive insulin protected, yet readily available. The hexamer-monomer conversion is one of the central aspects of insulin formulations for injection. The hexamer is far more stable than the monomer, which is desirable for practical reasons, however the monomer is a much faster reacting drug because diffusion rate is inversely related to particle size. A fast reacting drug means that insulin injections do not have to proceed mealtimes by hours, which in turn gives diabetics more flexibility in their daily schedule.
Pectin is composed of polymers.
cereal
Nucleotides are the monomer units that make up a DNA molecule. DNA nucleotides are composed of a deoxyribose sugar, a nitrogenous base, and a phosphate group.
The monomer units of carbohydrates are simple sugars such as glucose.
atoms
Insulin is measured in "units".
In a 1 mL insulin syringe, the markings typically represent units of insulin, not milliliters. The number of units you would draw up in a 1 mL insulin syringe depends on the concentration of the insulin you are using. Common insulin concentrations are 100 units/mL and 50 units/mL. If you are using insulin with a concentration of 100 units/mL and you want to draw up a certain number of units, you simply draw up that number of units on the syringe. For example, if you want to draw up 10 units of insulin, you would fill the syringe to the 10 unit mark on the syringe. If you are using insulin with a concentration of 50 units/mL, then each unit on the syringe represents 2 units of insulin. So, to draw up 10 units of insulin in this case, you would fill the syringe to the 5 unit mark. Always make sure to use the correct insulin concentration and syringe to accurately measure and administer your insulin dose. If you are unsure about the concentration or how to use the syringe, it's important to consult with a healthcare professional or pharmacist for guidance.
Amino acids