Open main menu
Home
Random
Recent changes
Special pages
Community portal
Preferences
About Wikipedia
Disclaimers
Incubator escapee wiki
Search
User menu
Talk
Dark mode
Contributions
Create account
Log in
Editing
Glycogen
(section)
Warning:
You are not logged in. Your IP address will be publicly visible if you make any edits. If you
log in
or
create an account
, your edits will be attributed to your username, along with other benefits.
Anti-spam check. Do
not
fill this in!
==Metabolism== ===Synthesis=== {{Main|Glycogenesis}} Glycogen synthesis is, unlike its breakdown, [[endergonic]]—it requires the input of energy. Energy for glycogen synthesis comes from [[uridine triphosphate]] (UTP), which reacts with [[glucose-1-phosphate]], forming [[UDP-glucose]], in a reaction catalysed by [[UTP—glucose-1-phosphate uridylyltransferase]]. Glycogen is synthesized from monomers of [[UDP-glucose]] initially by the protein [[glycogenin]], which has two [[tyrosine]] anchors for the reducing end of glycogen, since glycogenin is a homodimer. After about eight glucose molecules have been added to a tyrosine residue, the enzyme [[glycogen synthase]] progressively lengthens the glycogen chain using UDP-glucose, adding α(1→4)-bonded glucose to the nonreducing end of the glycogen chain.<ref>{{cite book |last=Nelson |first=D. |year=2013 |title=Lehninger Principles of Biochemistry |edition=6th |page=618 |publisher=W.H. Freeman and Company}}</ref> The [[glycogen branching enzyme]] catalyzes the transfer of a terminal fragment of six or seven glucose residues from a nonreducing end to the C-6 hydroxyl group of a glucose residue deeper into the interior of the glycogen molecule. The branching enzyme can act upon only a branch having at least 11 residues, and the enzyme may transfer to the same glucose chain or adjacent glucose chains. ===Breakdown=== {{Main|Glycogenolysis}} Glycogen is cleaved from the nonreducing ends of the chain by the enzyme [[glycogen phosphorylase]] to produce monomers of glucose-1-phosphate: [[File:Glycogen phosphorylase stereo.png|600px|center|Action of glycogen phosphorylase on glycogen]] In vivo, phosphorolysis proceeds in the direction of glycogen breakdown because the ratio of phosphate and glucose-1-phosphate is usually greater than 100.<ref>{{cite book |last=Stryer |first=L. |year=1988 |title=Biochemistry |edition=3rd |page=451 |publisher=Freeman}}</ref> Glucose-1-phosphate is then converted to [[G6P|glucose 6 phosphate (G6P)]] by [[phosphoglucomutase]]. A special [[glycogen debranching enzyme|debranching enzyme]] is needed to remove the α(1→6) branches in branched glycogen and reshape the chain into a linear polymer. The G6P monomers produced have three possible fates: * G6P can continue on the [[glycolysis]] pathway and be used as fuel. * G6P can enter the [[pentose phosphate pathway]] via the enzyme [[glucose-6-phosphate dehydrogenase]] to produce [[NADPH]] and 5 carbon sugars. * In the liver and kidney, G6P can be dephosphorylated back to glucose by the enzyme [[glucose 6-phosphatase]]. This is the final step in the [[gluconeogenesis]] pathway.
Edit summary
(Briefly describe your changes)
By publishing changes, you agree to the
Terms of Use
, and you irrevocably agree to release your contribution under the
CC BY-SA 4.0 License
and the
GFDL
. You agree that a hyperlink or URL is sufficient attribution under the Creative Commons license.
Cancel
Editing help
(opens in new window)