Chung‐Pin Chen scite author profile

Research Summary• Protein delivery across cellular membranes or compartments is primarily limited by low biomembrane permeability.• Many protein transduction domains (PTDs) have previously been generated, and covalently cross-linked with cargoes for cellular internalization.• An arginine-rich intracellular delivery (AID) peptide could rapidly deliver fluorescent proteins or β -galactosidase enzyme into plant and animal cells in a noncovalent fashion. The possible mechanism of this noncovalent protein transduction (NPT) may involve macropinocytosis.• The NPT via a nontoxic AID peptide provides a powerful tool characterized by its simplicity and quickness to have active proteins function in living cells in vivo . This should be of broad utility for functional enzyme assays and protein therapies in both plant biology research as well as biomedical applications.

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The dynamics of microbial partnerships in the coral Isopora palifera

Chen

Tseng

Chen

et al. 2010

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Both bacteria and algal symbionts (genus Symbiodinium), the two major microbial partners in the coral holobiont, respond to fluctuations in the environment, according to current reports; however, little evidence yet indicates that both populations have any direct interaction with each other in seasonal fluctuation. In this study, we present field observations of a compositional change in bacteria and Symbiodinium in the coral Isopora palifera in three separate coral colonies following monthly sampling from February to November in 2008. Using massively parallel pyrosequencing, over 200 000 bacterial V6 sequences were classified to build the bacterial community profile; in addition, the relative composition and quantity of Symbiodinium clades C and D were determined by real-time PCR. The results showed that coral-associated bacterial and Symbiodinium communities were highly dynamic and dissimilar among the tagged coral colonies, suggesting that the effect of host specificity was insignificant. The coral-associated bacterial community was more diverse (Shannon index up to 6.71) than previous estimates in other corals and showed rapid seasonal changes. The population ratios between clade C and D groups of Symbiodinium varied in the tagged coral colonies through the different seasons; clade D dominated in most of the samples. Although significant association between bacteria and symbiont was not detected, this study presents a more detailed picture of changes in these two major microbial associates of the coral at the same time, using the latest molecular approaches.

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Arginine-rich intracellular delivery peptides noncovalently transport protein into living cells

Wang

Chen

Chan

et al. 2006

Biochemical and Biophysical Research Communications

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PH1: An Archaeovirus ofHaloarcula hispanicaRelated to SH1 and HHIV-2

Porter¹,

Tang

Chen

et al. 2013

Archaea

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Halovirus PH1 infects Haloarcula hispanica and was isolated from an Australian salt lake. The burst size in single-step growth conditions was 50–100 PFU/cell, but cell density did not decrease until well after the rise (4–6 hr p.i.), indicating that the virus could exit without cell lysis. Virions were round, 51 nm in diameter, displayed a layered capsid structure, and were sensitive to chloroform and lowered salt concentration. The genome is linear dsDNA, 28,064 bp in length, with 337 bp terminal repeats and terminal proteins, and could transfect haloarchaeal species belonging to five different genera. The genome is predicted to carry 49 ORFs, including those for structural proteins, several of which were identified by mass spectroscopy. The close similarity of PH1 to SH1 (74% nucleotide identity) allowed a detailed description and analysis of the differences (divergent regions) between the two genomes, including the detection of repeat-mediated deletions. The relationship of SH1-like and pleolipoviruses to previously described genomic loci of virus and plasmid-related elements (ViPREs) of haloarchaea revealed an extensive level of recombination between the known haloviruses. PH1 is a member of the same virus group as SH1 and HHIV-2, and we propose the name halosphaerovirus to accommodate these viruses.

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Transfection and expression of plasmid DNA in plant cells by an arginine‐rich intracellular delivery peptide without protoplast preparation

et al. 2007

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The delivery and expression of exogenous genes in plant cells have been of particular interest for plant research and biotechnology. Here, we present results demonstrating a simple DNA transfection system in plants. Short arginine-rich intracellular delivery peptide, a protein transduction domain, was capable of delivering plasmid DNA into living plant cells non-covalently. This peptide-mediated DNA delivery conferred several advantages, such as nuclear targeting, non-toxic effect, and ease of preparation without protoplast formulation. Thus, this novel technology shall provide a powerful tool to investigate gene function in vivo, and lay the foundation for the production of transgenic plants in future.

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Chung‐Pin Chen

Noncovalent protein transduction in plant cells by macropinocytosis

The dynamics of microbial partnerships in the coral Isopora palifera

Arginine-rich intracellular delivery peptides noncovalently transport protein into living cells

PH1: An Archaeovirus ofHaloarcula hispanicaRelated to SH1 and HHIV-2

Transfection and expression of plasmid DNA in plant cells by an arginine‐rich intracellular delivery peptide without protoplast preparation

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