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Full-Text Articles in Life Sciences
Link Between Energy Investment In Biosynthesis And Proteostasis: Testing The Cost–Quality Hypothesis In Insects, Taiwo Iromini, Xiaolong Tang, Kyara N. Holloway, Chen Hou
Link Between Energy Investment In Biosynthesis And Proteostasis: Testing The Cost–Quality Hypothesis In Insects, Taiwo Iromini, Xiaolong Tang, Kyara N. Holloway, Chen Hou
Biological Sciences Faculty Research & Creative Works
The Energy Requirement for Biosynthesis Plays an Important Role in an Organism's Life History, as It Determines Growth Rate, and Tradeoffs with the Investment in Somatic Maintenance. This Energetic Trait is Different between Painted Lady (Vanessa Cardui) and Turkestan Cockroach (Blatta Lateralis) Due to the Different Life Histories. Butterfly Caterpillars (Holometabolous) Grow 30-Fold Faster, and the Energy Cost of Biosynthesis is 20 Times Cheaper, Compared to Cockroach Nymphs (Hemimetabolous). We Hypothesize that Physiologically the Difference in the Energy Cost is Partially Attributed to the Differences in Protein Retention and Turnover Rate: Species with Higher Energy Cost May Have a Lower …
Nona-Arginine Facilitates Delivery Of Quantum Dots Into Cells Via Multiple Pathways, Yi Xu, Betty Revon Liu, Han Jung Lee, Katie Shannon, Jeffrey G. Winiarz, Tien-Chun Wang, Huey-Jenn Chiang, Yue-Wern Huang
Nona-Arginine Facilitates Delivery Of Quantum Dots Into Cells Via Multiple Pathways, Yi Xu, Betty Revon Liu, Han Jung Lee, Katie Shannon, Jeffrey G. Winiarz, Tien-Chun Wang, Huey-Jenn Chiang, Yue-Wern Huang
Biological Sciences Faculty Research & Creative Works
Semiconductor quantum dots (QDs) have recently been used to deliver and monitor biomolecules, such as drugs and proteins. However, QDs alone have a low efficiency of transport across the plasma membrane. In order to increase the efficiency, we used synthetic nona-arginine (SR9), a cell-penetrating peptide, to facilitate uptake. We found that SR9 increased the cellular uptake of QDs in a noncovalent binding manner between QDs and SR9. Further, we investigated mechanisms of QD/SR9 cellular internalization. Low temperature and metabolic inhibitors markedly inhibited the uptake of QD/SR9, indicating that internalization is an energy-dependent process. Results from both the pathway inhibitors and …