Anion complexation and transport by isophthalamide and dipicolinamide derivatives: DNA plasmid transformation in E. coli

Jason L. Atkins; Mohit B. Patel; Megan M. Daschbach; Joseph W. Meisel; George W. Gokel

doi:10.1021/ja304816e

Anion complexation and transport by isophthalamide and dipicolinamide derivatives: DNA plasmid transformation in E. coli

Jason L. Atkins
, Mohit B. Patel
, Megan M. Daschbach
, Joseph W. Meisel
, George W. Gokel

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Tris-arenes based on either isophthalic acid or 2,6-dipicolinic acid have been known for more than a decade to bind anions. Recent studies have also demonstrated their ability to transport various ions through membranes. In this report, we demonstrate two important properties of these simple diamides. First, they transport plasmid DNA into Escherichia coli about 2-fold over controls, where the ampicillin resistance gene is expressed in the bacteria. These studies were done with plasmid DNA (∼2.6 kilobase (kb)) in JM109 E. coli cells. Second, known methods do not typically transport large plasmids (>15 kb). We demonstrate here that transformation of large pVIB plasmids (i.e., >20 kb) were enhanced over water controls by ∼10-fold. These results are in striking contrast to the normal decrease in transformation with increasing plasmid size.

Original language	English
Pages (from-to)	13546-13549
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	134
Issue number	33
DOIs	https://doi.org/10.1021/ja304816e
State	Published - Aug 22 2012

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10.1021/ja304816e

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title = "Anion complexation and transport by isophthalamide and dipicolinamide derivatives: DNA plasmid transformation in E. coli",

abstract = "Tris-arenes based on either isophthalic acid or 2,6-dipicolinic acid have been known for more than a decade to bind anions. Recent studies have also demonstrated their ability to transport various ions through membranes. In this report, we demonstrate two important properties of these simple diamides. First, they transport plasmid DNA into Escherichia coli about 2-fold over controls, where the ampicillin resistance gene is expressed in the bacteria. These studies were done with plasmid DNA (∼2.6 kilobase (kb)) in JM109 E. coli cells. Second, known methods do not typically transport large plasmids (>15 kb). We demonstrate here that transformation of large pVIB plasmids (i.e., >20 kb) were enhanced over water controls by ∼10-fold. These results are in striking contrast to the normal decrease in transformation with increasing plasmid size.",

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T1 - Anion complexation and transport by isophthalamide and dipicolinamide derivatives

T2 - DNA plasmid transformation in E. coli

AU - Atkins, Jason L.

AU - Patel, Mohit B.

AU - Daschbach, Megan M.

AU - Meisel, Joseph W.

AU - Gokel, George W.

PY - 2012/8/22

Y1 - 2012/8/22

N2 - Tris-arenes based on either isophthalic acid or 2,6-dipicolinic acid have been known for more than a decade to bind anions. Recent studies have also demonstrated their ability to transport various ions through membranes. In this report, we demonstrate two important properties of these simple diamides. First, they transport plasmid DNA into Escherichia coli about 2-fold over controls, where the ampicillin resistance gene is expressed in the bacteria. These studies were done with plasmid DNA (∼2.6 kilobase (kb)) in JM109 E. coli cells. Second, known methods do not typically transport large plasmids (>15 kb). We demonstrate here that transformation of large pVIB plasmids (i.e., >20 kb) were enhanced over water controls by ∼10-fold. These results are in striking contrast to the normal decrease in transformation with increasing plasmid size.

AB - Tris-arenes based on either isophthalic acid or 2,6-dipicolinic acid have been known for more than a decade to bind anions. Recent studies have also demonstrated their ability to transport various ions through membranes. In this report, we demonstrate two important properties of these simple diamides. First, they transport plasmid DNA into Escherichia coli about 2-fold over controls, where the ampicillin resistance gene is expressed in the bacteria. These studies were done with plasmid DNA (∼2.6 kilobase (kb)) in JM109 E. coli cells. Second, known methods do not typically transport large plasmids (>15 kb). We demonstrate here that transformation of large pVIB plasmids (i.e., >20 kb) were enhanced over water controls by ∼10-fold. These results are in striking contrast to the normal decrease in transformation with increasing plasmid size.

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U2 - 10.1021/ja304816e

DO - 10.1021/ja304816e

M3 - Article

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 33

ER -

Anion complexation and transport by isophthalamide and dipicolinamide derivatives: DNA plasmid transformation in E. coli

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