RNA interference prevents lipopolysaccharide-induced preprotachykinin gene expression

Selective regulation of gene expression by means of RNA interference has revolutionized molecular biology. This approach is not only used in fundamental studies on the roles of particular genes in the functioning of various organisms, but also possesses practical applications. A variety of methods are being developed based on gene silencing using dsRNA—for protecting agricultural plants from various pathogens, controlling insect reproduction, and therapeutic techniques related to the oncological disease treatment. One of the main problems in this research area is the successful delivery of exogenous dsRNA into cells, as this can be greatly affected by the localization or origin of tumor. This overview is dedicated to describing the latest advances in the development of various transport agents for the delivery of dsRNA fragments for gene silencing, with an emphasis on cancer treatment.

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Regulation and imaging of gene expression via an RNA interference antagonistic biomimetic probe

Chemical Science ◽

10.1039/c7sc00909g ◽

2017 ◽

Vol 8 (7) ◽

pp. 4973-4977 ◽

Cited By ~ 12

Author(s):

Kai Zhang ◽

Xue-Jiao Yang ◽

Wei Zhao ◽

Ming-Chen Xu ◽

Jing-Juan Xu ◽

...

Keyword(s):

Gene Expression ◽

Gene Regulation ◽

Rna Interference ◽

Living Cells

A versatile strategy is reported which permits gene regulation and imaging in living cells via an RNA interference antagonistic probe.

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The roles of aerobic exercise training and suppression IL-6 gene expression by RNA interference in the development of insulin resistance

Cytokine ◽

10.1016/j.cyto.2012.11.027 ◽

2013 ◽

Vol 61 (2) ◽

pp. 394-405 ◽

Cited By ~ 5

Author(s):

Hui Tang ◽

Min-hao Xie ◽

Yu Lei ◽

Liang Zhou ◽

Yu-ping Xu ◽

...

Keyword(s):

Gene Expression ◽

Insulin Resistance ◽

Rna Interference ◽

Exercise Training ◽

Aerobic Exercise ◽

Aerobic Exercise Training

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Surface-Chemistry Control To Silence Gene Expression inDrosophila Schneider 2 Cells through RNA Interference

Angewandte Chemie International Edition ◽

10.1002/anie.200604079 ◽

2007 ◽

Vol 46 (21) ◽

pp. 3881-3884 ◽

Cited By ~ 9

Author(s):

Eugene W. L. Chan ◽

Muhammad N. Yousaf

Keyword(s):

Gene Expression ◽

Rna Interference ◽

Surface Chemistry ◽

Silence Gene

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tarsal-less is expressed as a gap gene but has no gap gene phenotype in the moth midge Clogmia albipunctata

Royal Society Open Science ◽

10.1098/rsos.180458 ◽

2018 ◽

Vol 5 (8) ◽

pp. 180458 ◽

Cited By ~ 2

Author(s):

Eva Jiménez-Guri ◽

Karl R. Wotton ◽

Johannes Jaeger

Keyword(s):

Gene Expression ◽

Drosophila Melanogaster ◽

Rna Interference ◽

Gap Gene ◽

Gap Genes ◽

Subtle Effect ◽

Bona Fide ◽

Vinegar Fly ◽

Clogmia Albipunctata ◽

Overlapping Domains

Gap genes are involved in segment determination during early development of the vinegar fly Drosophila melanogaster and other dipteran insects (flies, midges and mosquitoes). They are expressed in overlapping domains along the antero-posterior (A–P) axis of the blastoderm embryo. While gap domains cover the entire length of the A–P axis in Drosophila, there is a region in the blastoderm of the moth midge Clogmia albipunctata , which lacks canonical gap gene expression. Is a non-canonical gap gene functioning in this area? Here, we characterize tarsal-less ( tal ) in C. albipunctata . The homologue of tal in the flour beetle Tribolium castaneum (called milles-pattes, mlpt ) is a bona fide gap gene. We find that Ca-tal is expressed in the region previously reported as lacking gap gene expression. Using RNA interference, we study the interaction of Ca-tal with gap genes. We show that Ca-tal is regulated by gap genes, but only has a very subtle effect on tailless (Ca-tll), while not affecting other gap genes at all. Moreover, cuticle phenotypes of Ca-tal depleted embryos do not show any gap phenotype. We conclude that Ca-tal is expressed and regulated like a gap gene, but does not function as a gap gene in C. albipunctata .

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