The α-d-glucosyl C-2 hydroxyl is required for binding to the H+-sucrose transporter in phloem
Author:
Publisher
Elsevier BV
Subject
Cell Biology,Biochemistry,Biophysics
Reference39 articles.
1. Phloem Loading of Sucrose
2. Sucrose uptake by cotyledons of Ricinus communis L.: Characteristics, mechanism, and regulation
3. Amino Acid and Sucrose Uptake into Cotyledons and Roots of Sinapis alba L.
4. Sucrose uptake in isolated phloem of celery is a single saturable transport system
5. Surcose transport in isolated plasma-membrane vesicles from sugar beet (Beta vulgaris L.) Evidence for an electrogenic sucrose-proton symport
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1. Probing binding specificity of the sucrose transporter AtSUC2 with fluorescent coumarin glucosides;Journal of Experimental Botany;2018-03-01
2. In vivo transport of three radioactive [18F]-fluorinated deoxysucrose analogs by the maize sucrose transporter ZmSUT1;Plant Physiology and Biochemistry;2017-06
3. Identification of Amino Acids Important for Substrate Specificity in Sucrose Transporters Using Gene Shuffling;Journal of Biological Chemistry;2012-08
4. Functionally Important Amino Acids in Rice Sucrose Transporter OsSUT1;Biochemistry;2012-04-09
5. Arg188 in rice sucrose transporter OsSUT1 is crucial for substrate transport;BMC Biochemistry;2012
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