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Artoria2e5 (talk | contribs) well. I tried to get the format better. |
Artoria2e5 (talk | contribs) m chromosome 1, not chromosome L. We aren't doing OCR from someone's lab report, are we? || also, what's with space after hyphen |
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== Function ==
Together with [[phosphorylase]], glycogen debranching enzymes function in [[glycogenolysis|glycogen breakdown]] and glucose mobilization. When phosphorylase has digested a glycogen branch down to four glucose residues, it will not remove further residues. Glycogen debranching enzymes assist phosphorylase, the primary enzyme involved in [[Glycogenolysis|glycogen breakdown]], in the mobilization of glycogen stores. Phosphorylase can only cleave α-1,4-
* 4-α-D-glucanotransferase ({{EC number|2.4.1.25}}), or [[glucosyltransferase]], transfers three glucose [[residue (chemistry)|residues]] from the four-residue glycogen branch to a nearby branch. This exposes a single glucose residue joined to the glucose chain through an α-1,6 glycosidic linkage<ref name="Berg"/>
* [[File:Glycosidase mechanism.png|thumb|Mechanism for cleaving of alpha-1,6 linkage.]]Amylo-α-1,6-glucosidase ({{EC number|3.2.1.33}}), or [[glucosidase]], cleaves the remaining alpha-1,6 linkage, producing glucose and a linear chain of glycogen.<ref name=Berg/> The mechanism by which the glucosidase cleaves the α -1,6-linkage is not fully known because the [[amino acids]] in the [[active site]] have not yet been identified. It is thought to proceed through a two step acid base assistance type mechanism, with an [[oxocarbenium]] ion intermediate, and retention of configuration in glucose.<ref name=Molecule/> This is a common method through which to cleave bonds, with an acid below the site of [[hydrolysis]] to lend a proton and a base above to deprotinate a water which can then act as a [[nucleophile]]. These acids and bases are amino acid side chains in the active site of the enzyme. A scheme for the mechanism is shown in the figure.<ref name=MCCarter/>
Thus the debranching enzymes, transferase and α-1,6-
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== Genetic ___location ==
The official name for the gene is "amylo-
The gene is 85 kb long, has 35 [[exon]]s and encodes for a 7.0 kb mRNA. Translation of the gene begins at exon 3,which encodes for the first 27 amino acids of the AGL gene, because the first two exons (68kb) contain the 5' untranslated region. Exons 4-35 encode the remaining 1505 amino acids of the AGL gene.<ref name= Bao/>
Studies produced by the department of pediatrics at Duke University suggest that the human AGL gene contains at minimum 2 promotor regions, sites where the transcription of the gene begins, that result in differential expression of isoform, different forms of the same protein, mRNAs in a manner that is specific for different tissues.<ref name = Gillard /><ref name=Ding />
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