2010
DOI: 10.1002/cbic.201000494
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Extracellular Silica Nanocoat Confers Thermotolerance on Individual Cells: A Case Study of Material‐Based Functionalization of Living Cells

Abstract: An efficient and general synthesis of hexahydropyrimidopyrimidinediones has been developed employing a low melting L‐(+)‐tartaric acid‐dimethylurea mixture as reaction medium. The melt acts at the same time as solvent, catalyst and reactant. Functionalized hexahydropyrimidopyrimidinediones are obtained in good to excellent yields after simple work‐up.

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Cited by 74 publications
(67 citation statements)
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“…As shown in Figure 2C and E, MSNs and A-MSNs could readily aggregate on the surfaces of the plant cells [28]. Compared with the interior of the plant cells alone (shown in Figure 2B), the concentration of silicon significantly increased from 0.01% to 1.20% (or 6.85%) in the plant cells after the uptake of MSNs or A-MSNs ( Figure 2D and F), which directly confirmed the passage of MSNs into the walled plant cells.…”
Section: Uptake Of Msns By Liriodendron Hybrids Suspension Cellsmentioning
confidence: 95%
“…As shown in Figure 2C and E, MSNs and A-MSNs could readily aggregate on the surfaces of the plant cells [28]. Compared with the interior of the plant cells alone (shown in Figure 2B), the concentration of silicon significantly increased from 0.01% to 1.20% (or 6.85%) in the plant cells after the uptake of MSNs or A-MSNs ( Figure 2D and F), which directly confirmed the passage of MSNs into the walled plant cells.…”
Section: Uptake Of Msns By Liriodendron Hybrids Suspension Cellsmentioning
confidence: 95%
“…Several examples have recently been reported, including introducing superparamagnetic nanoparticles for magnetic eld responses, 24,25 silica to enhance thermal durability, 26 and graphene to impart electrical conductivity. 27,28 Another potential encapsulating material for microorganisms is graphene oxide (GO) which has a number of advantageous properties such as biodegradability, 29 exibility, 30 robustness, 30 transparency 30 and amphiphilicity.…”
Section: 23mentioning
confidence: 99%
“…A natural virus cannot induce biomineralization by itself during its normal life cycle. In contrast, biomineralization in organisms is generally controlled using biomacromolecules in a mild biological system, and some polypeptides and macromolecules have been used to induce biomineralization (20)(21)(22)(23)(24). For example, several peptides have been genetically incorporated into the M13 bacteriophage and plant viruses as nucleators to direct nanomaterial synthesis (25,26) or as specific nucleators for CaP mineralization in living systems (23,(27)(28)(29).…”
mentioning
confidence: 99%