Hypothetical protein Abstract: Difference between revisions
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'''Abstract''' | |||
Ribose and fucose are important substrates in the uptake of material by cells, as they are involved in numerous cellular functions. The RbsD/FucU superfamily proteins have been shown to be involved in the transport of these two sugars, by causing anomeric change in the sugars. 2ob5A hypothectical protein LOC282969 isoform 1 has been found to be a member of this superfamily. Structural, evolutionary and functional analysis found that this protein is specifically involved with fucose transport as a FucU protein. This was supported by the finding of major conserved regions between the two types of transporters and specific binding residues. | |||
[[Hypothetical protein Abstract | Abstract ]] | [[Hypothetical protein Introduction | Introduction]] | [[Hypothetical protein Method| Method]] | | [[Hypothetical protein Abstract | Abstract ]] | [[Hypothetical protein Introduction | Introduction]] | [[Hypothetical protein Method| Method]] | | ||
[[Hypothetical protein Results | Results]] | [[Hypothetical protein Discussion | Discussion]] | [[Hypothetical protein Conclusion | Conclusion ]] | [[Hypothetical protein References | References ]]<BR> | [[Hypothetical protein Results | Results]] | [[Hypothetical protein Discussion | Discussion]] | [[Hypothetical protein Conclusion | Conclusion ]] | [[Hypothetical protein References | References ]]<BR> |
Revision as of 00:05, 16 June 2009
Abstract
Ribose and fucose are important substrates in the uptake of material by cells, as they are involved in numerous cellular functions. The RbsD/FucU superfamily proteins have been shown to be involved in the transport of these two sugars, by causing anomeric change in the sugars. 2ob5A hypothectical protein LOC282969 isoform 1 has been found to be a member of this superfamily. Structural, evolutionary and functional analysis found that this protein is specifically involved with fucose transport as a FucU protein. This was supported by the finding of major conserved regions between the two types of transporters and specific binding residues.
Abstract | Introduction | Method |
Results | Discussion | Conclusion | References