Modeling the Dynamics of Gel Electrophorresis in the High School Classroom

Saucedo, S. R.

doi:10.1119/1.4772034

Cited by 3 publications

(2 citation statements)

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“…Gel electrophoresis was used in this study as an example for visualizing the interactions of the various tested salts and molecules with DNA. It is a commonly used, simple, economic biochemical technique, available in most biological, biochemical, and/or biophysical laboratories [95][96][97]. Advantages of using gel electrophoresis to read out the signals of DNA interactions with other molecules amplified by the bent DNA bows include the accessibility, simplicity, economy and broad range [96,97], which are expected to make the bent DNA bows broadly useful.…”

Section: Discussionmentioning

confidence: 99%

“…It is a commonly used, simple, economic biochemical technique, available in most biological, biochemical, and/or biophysical laboratories [95][96][97]. Advantages of using gel electrophoresis to read out the signals of DNA interactions with other molecules amplified by the bent DNA bows include the accessibility, simplicity, economy and broad range [96,97], which are expected to make the bent DNA bows broadly useful. On the other hand, we should emphasize that the key role of our bent DNA bows is to amplify the interactions and thus improve the sensitivity of the original detection methods and techniques in general; therefore, many existing techniques are expected to work well with the bent DNA molecules for measuring and visualizing the signals of DNA interactions with other molecules.…”

Section: Discussionmentioning

confidence: 99%

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Bent DNA Bows as Sensing Amplifiers for Detecting DNA-Interacting Salts and Molecules

Freeland

Zhang

Wang

et al. 2020

Sensors

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Due to the central role of DNA, its interactions with inorganic salts and small organic molecules are important. For example, such interactions play important roles in various fundamental cellular processes in living systems and are involved in many DNA-damage related diseases. Strategies to improve the sensitivity of existing techniques for studying DNA interactions with other molecules would be appreciated in situations where the interactions are too weak. Here we report our development and demonstration of bent DNA bows for amplifying, sensing, and detecting the interactions of 14 inorganic salts and small organic molecules with DNA. With the bent DNA bows, these interactions were easily visualized and quantified in gel electrophoresis, which were difficult to measure without bending. In addition, the strength of the interactions of DNA with the various salts/molecules were quantified using the modified Hill equation. This work highlights the amplification effects of the bending elastic energy stored in the DNA bows and the potential use of the DNA bows for quantitatively measuring DNA interactions with small molecules as simple economic methods; it may also pave the way for exploiting the bent DNA bows for other applications such as screening DNA-interacting molecules and drugs.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Bent DNA Bows as Sensing Amplifiers for Detecting DNA-Interacting Salts and Molecules

Freeland

Zhang

Wang

et al. 2020

Sensors

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Bent DNA bows as amplifiers and biosensors for detecting DNA-interacting salts and molecules

Freeland

Zhang

Wang

et al. 2020

Preprint

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14Due to the central role of DNA, its interactions with inorganic salts and small organic molecules 15 are important for understanding various fundamental cellular processes in living systems, 16deciphering the mechanism of many diseases related to DNA damages, and discovering or 17 designing inhibitors and drugs targeting DNA. However, there is still a need for improved 18 sensitivity to detect these interactions, especially in situations where expensive sophisticated 19 equipment is not available. Here we report our development and demonstration of bent DNA bows 20 for amplifying, sensing, and detecting the interactions of 14 inorganic salts and small organic 21 molecules with DNA. With the bent DNA bows, these interactions were easily visualized and 22 quantified in gel electrophoresis, which were difficult to measure without bending. In addition, the 23 strength of the interactions of DNA with the various salts/molecules were quantified using the 24 modified Hill equation. This work highlights the amplification effects of the bending elastic energy 25 stored in the DNA bows and the potential use of the DNA bows for quantitatively measuring DNA 26interactions with small molecules as simple economic methods; it may also pave the way for 27 exploiting the bent DNA bows for other applications such as monitoring water quality and 28 screening DNA-targeting molecules and drugs. 29 30 31

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