This screen is also great for making applesauce as well. The pumpkin screen features larger holes that will accommodate vegetables that require a courser squeeze such as pumpkins and spaghetti squash. The original kit only includes the tomato milling screen, whereas the deluxe kit comes with 2 additional screen the pumpkin and berry screen. The Squeezo Strainer comes in two kits of your choice, either the original kit or the deluxe kit. The Squeezo strainer is proudly made in America, and is still built to last. This is the same tomato strainer that has been around for decades. This browser does not support PDFs.Words from our Pomodoro Residente Esperto di Premere “Resident tomato press expert” “The Original All-Metal Squeezo Strainer has a long history with reliability and build quality. International Journal of Environment Agriculture and Biotechnology(ISSN: 2456-1878).4(4):1211-1216.Doi:10.22161/ijeab.4448Įkrem Bolukbasi, Mehmet Karakas."Effect of Zinc Heavy Metal on Stress-Related Genes in Tomato (Solanumlycopericum L.) Plants", International Journal of Environment Agriculture and Biotechnology,vol.4,no. "Effect of Zinc Heavy Metal on Stress-Related Genes in Tomato (Solanumlycopericum L.) Plants ". International Journal of Environment Agriculture and Biotechnology(ISSN: 2456-1878).4(4), pp.1211-1216.Įkrem Bolukbasi, Mehmet Karakas.
International Journal of Environment Agriculture and Biotechnology(ISSN: 2456-1878).4(4), 1211-121/ijeab.4448Įkrem Bolukbasi, Mehmet Karakas, P.(2019).Effect of Zinc Heavy Metal on Stress-Related Genes in Tomato (Solanumlycopericum L.) Plants. 4, 2019, pp.1211-1216 AI Publications doi:10.22161/ijeab.4448Įkrem Bolukbasi, Mehmet Karakas, P.(2019).Effect of Zinc Heavy Metal on Stress-Related Genes in Tomato (Solanumlycopericum L.) Plants. International Journal of Environment Agriculture and Biotechnology(ISSN: 2456-1878),vol 4, no. Total View: 1101Įkrem Bolukbasi, Mehmet Karakas et al."Effect of Zinc Heavy Metal on Stress-Related Genes in Tomato (Solanumlycopericum L.) Plants". The highest relative fold change value was measured on GR1 for both root and shoot indicating the activation of the oxidative stress enzyme to tolerate zinc stress. Results showed that the genes were over-expressed in zinc-stressed tomato. A quantitative Real-Time PCR experiment was performed with MT2 and GR1 genes using RNA isolated from tomato roots or shoots treated for 24h with zinc at concentrations ranging from 20 to 1280ppm. But at high concentrations, it is toxic for plants like cadmium, lead and copper.In this current study, the molecular response of tomato (Solanumlycopericum L.) plants to zinc stress was examined by transcript accumulation analysis of two stress-related genes: (i) MT2 (metallothionein) gene, coding for a metal-binding protein and (ii) GR1 (glutathionreductase) gene, a marker of enzymatic ROS scavenging mechanism. In plants, zinc in low concentration is essential for root and stem elongation, RNA levels, the cell’s ribosome content and protein formation mechanism.
The aim of this study was to determine the molecular changes in tomato (Solanumlycopericum L.) genome under heavy metal of zinc stress.Zinc is a microelement which should be taken in very less amounts by plants, animals and humans.
It is known that high concentration of heavy metals in soils and waters cause genotoxicity and damage to most of the functional biomolecules. Keyword: Zinc Heavy Metal, Tomato Plants, MT2, GR1.Ībstract: Heavy metal pollution is a major environmental problem all over the world.
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