@misc{haigler_zhang_wilkerson_2005, title={Biotechnological improvement of cotton fibre maturity}, volume={124}, ISSN={["1399-3054"]}, DOI={10.1111/j.1399-3054.2005.00480.x}, abstractNote={This mini‐review focuses on the prospects and tools for controlling cotton fibre secondary wall thickness. Cotton fibre secondary walls are composed of almost 100% cellulose, and are responsible for fibre maturity and a large component of fibre yield. Improved fibre yield and maturity would result from the ability to control secondary wall cellulose deposition quantitatively, including making the process less sensitive to environmental stress. Both genetic engineering and marker‐assisted breeding are possible avenues for effecting such improvements, but first key genes that participate in the regulation and control of secondary wall cellulose biogenesis must be identified. Recent advances towards understanding and manipulating cotton fibre secondary wall deposition that are discussed here include: (i) experimental approaches to identify metabolic participants in cellulose biogenesis; (ii) isolation and characterization of promoters to drive foreign gene expression preferentially during secondary wall deposition; and (iii) a novel set of cDNA sequences representing genes that are differentially expressed during cotton fibre secondary wall deposition compared with primary wall deposition.}, number={3}, journal={PHYSIOLOGIA PLANTARUM}, author={Haigler, CH and Zhang, DH and Wilkerson, CG}, year={2005}, month={Jul}, pages={285–294} }
 @article{zhang_collins_andrade_1998, title={Genotype and fertilization effects on trypsin inhibitor activity in sweetpotato}, volume={33}, number={2}, journal={HortScience}, author={Zhang, D. P. and Collins, Wanda W. and Andrade, M.}, year={1998}, pages={225–228} }
 @article{zavada_abernathy_pearton_mackenzie_mileham_wilson_schwartz_haggerottcrawford_shul_kilcoyne_et al._1997, title={Microdisk laser structures formed in III-V nitride epilayers}, volume={41}, ISSN={["0038-1101"]}, DOI={10.1016/S0038-1101(96)00244-4}, abstractNote={Several kinds of nitride-based micro-resonators have been fabricated. Firstly, a microdisk laser structure comprising three InGaNGaN quantum wells on a thick AlN buffer has been grown by metal-organic molecular beam epitaxy and fabricated using a combination of non-selective Cl2/CH4/H2/Ar dry etching and selective KOH-based wet etching of the AlN. These structures are of potential use in short wavelength photonic or optoelectronic circuits. In a second structure Er was implanted into a GaN layer to produce strong emission at 1.54 μm. Similar results have been obtained in Er-implanted AlN, and AlN doped during epitaxial growth.}, number={2}, journal={SOLID-STATE ELECTRONICS}, author={Zavada, JM and Abernathy, CR and Pearton, SJ and Mackenzie, JD and Mileham, JR and Wilson, RG and Schwartz, RN and HaggerottCrawford, M and Shul, RJ and Kilcoyne, SP and et al.}, year={1997}, month={Feb}, pages={353–357} }