@article{article_282663, title={The Determining of the Biofilm Form by Two Industrial Strains on Plastic Composite Supports}, journal={International Journal of Pure and Applied Sciences}, volume={2}, pages={50–56}, year={2016}, url={https://izlik.org/JA37ET45ZJ}, author={Yonten, Vahap and Aktas, Nahit}, keywords={Biyofilm,biyopolimer,CFU,PCS}, abstract={<p class="MsoNormal" style="margin-bottom:0cm;margin-bottom:.0001pt;text-align: justify;text-indent:21.3pt;line-height:normal;mso-layout-grid-align:none; text-autospace:none"> <span lang="EN-US" style="font-size:10.0pt;font-family:"Times New Roman","serif"">In this paper, the biofilm formation of industrial yeasts <i>Candida intermedia </i> NRRL Y-8278 <i> </i>and <i>Kluyveromces marxianus </i> NRRL Y-8281 <i> </i>yeast were grown on various plastic composite supports (PCS) to analyze colony forming unit (CFU). The biofilm was performed using Stripping-Sand method for yeasts on the PCS (PCS <sub>1 </sub>, PCS <sub>2 </sub>, PCS <sub>3 </sub>, PCS <sub>4 </sub>). The biofilm formation on the yeasts was observed on the PCS. <i>K. marxianus </i>and <i> C. intermedia </i> took place the apparent the biofilm population CFU of each yeast on plastic supports. The best biofilm population was performed 2.9×10 <sup>8 </sup> CFU g <sup>-1 </sup> by <i>K. marxianus </i> on PCS <sub>2 </sub> support than <i>C. intermedia </i>. The calculation of biofilm in   CFU mL <sup>-1 </sup> on each yeast also was analyzed 1.6×10 <sup>10 </sup> by <i>K. marxianus </i> on the PCS <sub>2 </sub>. <i>  </i> <i>K. marxianus </i> had better the biofilm values on the PCS than <i>C. intermedia </i>. The results of this work will be useful on the some areas that this supports (polypropylene) used in such as food, biomedical and industrial companies and to realize about structure of yeasts and polypropylene supports in the literatures. <o:p> </o:p> </span> </p>}, number={2}