Boron intakes in selected populations in Turkey and the US.

Meacham, Susan
Sayli, Ugur
Korkmaz, Mehmet
Carper, Stephen
Bakirdere, Sezgin
Ataman, Osman Yavuz


Boron toxicity and deficiency in Triticeae: Update on tolerance mechanisms and transporters
Oz, M. Tufan; Kayihan, Ceyhun; Gumusel, Doga; Karagedikli, Gizem; Pallotta, Margaret; Sutton, Tim; Langridge, Peter; EYİDOĞAN, FÜSUN; Yucel, Meral; Öktem, Hüseyin Avni (2012-09-23)
Boron toxicity induces sulfate transporters at transcriptional level in Arabidopsis thaliana
Kayihan, Ceyhun; Aksoy, Emre; Mutlu, Su Naz (2023-1-01)
Plants activate glutathione (GSH)-dependent detoxification pathways at biochemical and molecular levels under boron (B) toxicity. Sulfate uptake and transport are necessary for GSH biosynthesis in plants. Therefore, the transcriptional regulation of some sulfate transporters was determined in this study to clarify the importance of these transporters in leaf and root tissues of Arabidopsis thaliana under toxic B conditions. The expression level of SULTR1;3 was dramatically increased in leaf and root tissues...
Boron removal from aqueous solutions via polymer enhanced ultrafiltration using novel Imino-bis-propane diol functional polymers
Zerze, Hasan; Özbelge, H. Önder; Yılmaz, Levent; Department of Chemical Engineering (2012)
In this work, newly synthesized poly (vinyl amino-N, N’-bis-propane diol) (GPVA) and copolymer, poly (vinyl amino-N, N’-bis-propane diol-co-DADMAC) (GPVA-co-DADMAC) were efficiently exploited for boron removal via polymer enhanced ultrafiltration (PEUF). Boron concentration could be reduced from 10ppm down to 0.4ppm using GPVA whereas it could be reduced from 10ppm down to 0.8ppm with copolymer GPVA-co-DADMAC at pH 9 and loading (boron-to-polymer mass ratio) 0.001 via continuous polymer enhanced ultrafiltra...
Boron, a source indicator for the differentiation of origin of the total phosphorus in waste water.
Salihoğlu , Işıl; Department of Environmental Engineering (1976)
Boron doped hydroxyapatites in biomedical applications
Uysal, İdil; Yılmaz, Bengi; Evis, Zafer (2020-12-01)
Hydroxyapatite has been widely used in biomedical applications as a coatingmaterial for implant surfaces, a drug carrier, a scaffold or composite for bonetissue engineering applications. The highly ionic structure of hydroxyapatite allowsdoping of various ions, resulting in an improvement in its properties. Boron is oneof the elements which can be doped into hydroxyapatite structure by replacingphosphate (PO43-) or hydroxyl (OH-) sites to obtain scaffolds for bone tissueengineering applications or a coating...
Citation Formats
S. Meacham, U. Sayli, M. Korkmaz, S. Carper, S. Bakirdere, and O. Y. Ataman, “Boron intakes in selected populations in Turkey and the US.,” FASEB JOURNAL, pp. 0–0, 2008, Accessed: 00, 2020. [Online]. Available: