Genomic template stability
WebIn addition, root growth and total soluble protein level in trifluralin-treated seedlings were analyzed and compared for genomic template stability (GTS), which was performed for the qualitative measurement of changes in randomly … WebJan 18, 2016 · Swarnadhan, Pusa basmati, Badshabhog, and Tulsibhog in terms of appearance of new bands and disappearance of normal bands that were presented in untreated seedlings led to reduction in genomic template stability due to their high susceptibility to arsenic toxicity.
Genomic template stability
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WebApr 7, 2014 · Genomic template stability (GTS) index was calculated for TEs upon stress induction. GTS indices for copper and heat shock … WebFeb 27, 2024 · Genomic template stability (GTS,%) was calculated for RAPD as the following formula: (1-a/n) × 100 (where a in the formula is the average number of polymorphic bands detected in each treated sample, and n is the number of total bands in the control). 2.10. Statistical analysis.
WebThe accumulation of reactive oxygen species in response to salinity is the most important DNA-damaging factor causing a decrease in the genomic template stability of the plant. Quantification of important bioactive constituents (andrographolide, neo-andrographolide, and 14-DDA) was done through HPLC, and the results showed high variability in ... WebGenomic template stability, a qualitative measurement of changes in RAPD patterns of genomic DNA, decreased with increasing metal concentration. In SDS-PAGE analysis, it …
WebAug 14, 2024 · Random amplified polymorphic DNA results indicated that genomic template stability (GTS) was significantly affected based on Pb concentrations. The present results suggest that higher concentrations of Pb enhanced the oxidative damage by over production of ROS in S. grandiflora that had potential tolerance mechanism to Pb as … WebMar 31, 2024 · The genomic template stability was 63.6, 36.4 and 18.2% 1, 3 and 7 days of exposure, respectively. The apparent of new bands increased as time of exposure decreased, while GTS values decreased confirming the effect of chitosan-induced DNA damage. Chitosan may be an ecofriendly acceptable alternative pesticide for snail control.
WebGenomic template stability (GTS, %) was calculated using the equation reported by Salarizadeh and Kavousi : where a is the average number of changes in each experimental group DNA profile, and n is the number of total bands in the control samples . The polymorphic bands observed in the RAPD analysis were defined as the gain or loss of …
WebApr 12, 2012 · Genomic template stability, a qualitative measurement of changes in RAPD patterns of genomic DNA, decreased with increasing metal concentration. In SDS-PAGE analysis, it was observed that the total soluble protein content decreased by Co treatment, while it increased by Ni treatment. The results obtained from this study revealed that … how to make a clock in javaWebMar 31, 2024 · Genomic templates stability (GTS, %) is a percentage value that reflects PCR amplification profile changes generated by chitosan, in relation to profiles obtained … how to make a clock in c++how to make a clock face on solidworksWebMay 4, 2024 · Understanding how DNA methylation levels and TET activity influence genomic stability provides the context in which vitamin C, as … how to make a clock in labviewWebAug 14, 2024 · Isozyme band intensity was more consistent with the respective changes in antioxidative enzyme activities. Random amplified polymorphic DNA results indicated … jowar calories per 100gWebDec 6, 2016 · A crucial factor in maintaining genome stability is establishing deoxynucleoside triphosphate (dNTP) levels within a range that is optimal for chromosomal replication. Since DNA replication is relevant to a wide range of other chromosomal activities, these may all be directly or indirectly affected when dNTP concentrations … how to make a clock in matlabWebFeb 9, 2024 · The percent of genomic template stability (% of GTS) was calculated according to the following formula: $$ \%\mathrm{of}\ \mathrm{GTS}=\left(1-\frac{a}{n}\right)x100 $$ where a is the average number of changes in each DNA profile of each treatment and n is the number of total bands in control samples . how to make a clock for school project