bonds that hold monomer together. Like peptide bonds in protein and glucosidic bonds in complex sugars.
The alpha(1-4) glucosidic bond between two glucose monomeres to form linear chain of poly-glucose.[The alpha(1-6) bond between two glucose monomeres to form a branching point in the above, which is then called amylopectine]
Sucrose is formed by a glucose and a fructose residues linked by an alpha(1-2) glucosidic bond. Its chemical name is O-alpha-D-glucopyranosyl-(1-2)-beta-D-fructofuranoside.
covalent bond,coordinate bond and singlet bond
A chemical bond that involves the sharing of electrons is a covalent bond. A nonpolar covalent bond is the type of bond that involves the most sharing.
glucosidic bonds are used
bonds that hold monomer together. Like peptide bonds in protein and glucosidic bonds in complex sugars.
The alpha(1-4) glucosidic bond between two glucose monomeres to form linear chain of poly-glucose.[The alpha(1-6) bond between two glucose monomeres to form a branching point in the above, which is then called amylopectine]
cellulose can not be digested by humans..because in human body there is no beta 1-4 glucosidase present.these beta glucosidase cleaves or degrade the glucosidic bond. though termites and cows can digest it and some symbiotic bacteria can digest it.
Sucrose is formed by a glucose and a fructose residues linked by an alpha(1-2) glucosidic bond. Its chemical name is O-alpha-D-glucopyranosyl-(1-2)-beta-D-fructofuranoside.
Yes, a peptide bond is a covalent bond.
bond avenue
The type of bond in which two atoms share electrons is called a covalent bond.
double bond contains one sigma bond and one pi bond triple bond contains one sigma bond and two pi bond
covalent bond,coordinate bond and singlet bond
Triple bond would be the strongest, double in between, and single is the weakest.
A double bond consists of 1 sigma bond and 1 pi bond, and a single bond consists of 1 sigma bond. Between a sigma bond and a pi bond, a sigma bond is stronger due to it's shorter bond length, thus, a C=C bond is not twice as strong as a C-C bond.