Results 211 to 220 of about 13,066 (249)
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Photosynthesis Research, 1992
The heterotrophic tissues of the plant are dependent upon carbon and nitrogen import for normal growth and development. In general, oxidized forms of these essential elements are reductively assimilated in the leaf and, subsequently, sucrose and amino acids are transported to the heterotrophic cells in a process known as assimilate partitioning.
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The heterotrophic tissues of the plant are dependent upon carbon and nitrogen import for normal growth and development. In general, oxidized forms of these essential elements are reductively assimilated in the leaf and, subsequently, sucrose and amino acids are transported to the heterotrophic cells in a process known as assimilate partitioning.
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Sodium/iodide symporter in thyroid cancer
Experimental and Clinical Endocrinology & Diabetes, 2001[No abstract available]
C. Mian +5 more
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The chlorella hexose/H+-symporters
2000The physiology, molecular biology, and biochemistry of the inducible hexose uptake protein of Chlorella kessleri is reviewed. The protein encoded by the HUP1 gene is the most intensively studied membrane transporter of plants. Responsible for substrate accumulation up to 1500-fold, it translocates one proton together with one hexose, and the cell ...
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Inhibitors of the Proton-Sucrose Symport
Archives of Biochemistry and Biophysics, 1993Sucrose transporters are important components of the assimilate partitioning pathway in many plants. In the results reported here, we examined the effect of several inhibitors on proton-coupled sucrose transport into plasma membrane vesicles isolated from sugar beet leaf tissue.
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Sodium/iodide symporter (NIS) and cytokines
Experimental and Clinical Endocrinology & Diabetes, 2001It has been shown that TSH upregulates rat NIS gene expression in vitro, and this induction can be modulated by cytokines. Analysis of the distribution of rat NIS mRNA ex vivo demonstrated variable levels of NIS transcription in different tissue samples. - IL-1beta and IL-6 have been found to decrease NIS mRNA expression in TSH-stimulated FRTL-5-cells.
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Visualisation of sodium-iodide symporter
European Journal of Nuclear Medicine and Molecular Imaging, 2005Montserrat, Estorch +6 more
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