Synthesis and application of streptavidin functionalized organosilica microparticles

Hou, Cailing; Zhang, Linxia; Wang, Yue; Wang, Zhimin

doi:10.1002/app.41560

Cited by 3 publications

(3 citation statements)

References 55 publications

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“…30 The surface-conjugation step involving conversion of carboxyl function of Fe 3 O 4 @DHCA NCs via carbodiimide coupling reaction was verified by the specific absorption band due to SAV that was found to appear at 1637 cm −1 corresponding to the amide groups located at the eight antiparallel β-strands of SAV. 31,32 Additionally, we evaluated the magnetic separation of IONCs in water to achieve complete purification within 3 min (Fig. 3G).…”

Section: Paper Biomaterials Sciencementioning

confidence: 99%

High efficiency capture of biomarker miRNA15a for noninvasive diagnosis of malignant kidney tumors

et al. 2022

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Section: Paper Biomaterials Sciencementioning

confidence: 99%

High efficiency capture of biomarker miRNA15a for noninvasive diagnosis of malignant kidney tumors

et al. 2022

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“…1) Fabrication of the primer sequences: The starting point for the replication experiments are colloids coated with complementary DNA strands that can self-assemble. We use existing procedures to functionalize 2.7 µm SiO 2 colloids with streptavidin [26] or use commercial streptavidin-coated magnetic colloids and then add biotinylated double-stranded DNA (dsDNA) with a 6base pair sticky end on those colloids [6]. The DNA coating is determined to be around 1.3-0.5 10 6 strands per particle with a melting temperature of 36.5±1.2…”

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confidence: 99%

“…1 Methods Summary DNA was grafted onto the colloids with streptavidin using protocols adapted from literature [6,26]. Following functionalization, the DNA-coated colloids were stored in a phosphate buffer (10 mM phosphate, 50 mM NaCl, 0.5 % Pluronic F-127, pH 7.4) at 0.5 % w/w.…”

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confidence: 99%

Replicating programmed colloidal sequences

Kesteren

Diethelm

Isa

2023

Preprint

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Nature uses replication to amplify the information necessary for the intricate structures vital for life. Despite some successes with pure nucleotide structures [1–5], constructing synthetic microscale systems capable of replication remains largely out of reach [6]. Here we show a functioning strategy for microscale replication using DNA-coated colloids. By positioning DNA-functionalized colloids through capillary assembly [7] and embedding them into a polymer layer, we create programmable sequences of patchy particles that act as a primer and offer precise binding of complementary particles from suspension. The strings of complementary colloids are crosslinked, released from the primer, and purified via flow cytometric sorting, to achieve a purity of up to 81% of replicated sequences. We demonstrate the replication of strings of up to five colloids, non-linear shapes, and using particles of different sizes and materials. Furthermore, we propose a strategy to replicate a second generation of sequences with the vision for exponential self-replication.

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DNA‐Based Replication of Programmable Colloidal Assemblies

van Kesteren,

Diethelm,

Jung

et al. 2024

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Nature uses replication to amplify the information necessary for the intricate structures vital for life. Despite some successes with pure nucleotide structures, constructing synthetic microscale systems capable of replication remains largely out of reach. Here, a functioning strategy is shown for the replication of microscale particle assemblies using DNA‐coated colloids. By positioning DNA‐functionalized colloids using capillary forces and embedding them into a polymer layer, programmable sequences of patchy particles are created that act as a primer and offer precise binding of complementary particles from suspension. The strings of complementary colloids are cross‐linked, released from the primer, and purified via flow cytometric sorting to achieve a purity of up to 81% of the replicated sequences. The replication of strings of up to five colloids and non‐linear shapes is demonstrated with particles of different sizes and materials. Furthermore, a pathway for exponential self‐replication is outlined, including preliminary data that shows the transfer of patches and binding of a second‐generation of assemblies from suspension.

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Synthesis and application of streptavidin functionalized organosilica microparticles

Cited by 3 publications

References 55 publications

High efficiency capture of biomarker miRNA15a for noninvasive diagnosis of malignant kidney tumors

High efficiency capture of biomarker miRNA15a for noninvasive diagnosis of malignant kidney tumors

Replicating programmed colloidal sequences

DNA‐Based Replication of Programmable Colloidal Assemblies

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