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Results: 1 to 20 of 104

Similar articles for PubMed (Select 23081706)

1.

Changing the enzyme reaction rate in magnetic nanosuspensions by a non-heating magnetic field.

Klyachko NL, Sokolsky-Papkov M, Pothayee N, Efremova MV, Gulin DA, Pothayee N, Kuznetsov AA, Majouga AG, Riffle JS, Golovin YI, Kabanov AV.

Angew Chem Int Ed Engl. 2012 Nov 26;51(48):12016-9. doi: 10.1002/anie.201205905. Epub 2012 Oct 18. No abstract available.

2.

Stabilization of alpha-chymotrypsin by covalent immobilization on amine-functionalized superparamagnetic nanogel.

Hong J, Gong P, Xu D, Dong L, Yao S.

J Biotechnol. 2007 Feb 20;128(3):597-605. Epub 2006 Dec 1.

PMID:
17175056
3.

Site-specific immobilization of enzymes on magnetic nanoparticles and their use in organic synthesis.

Yu CC, Kuo YY, Liang CF, Chien WT, Wu HT, Chang TC, Jan FD, Lin CC.

Bioconjug Chem. 2012 Apr 18;23(4):714-24. doi: 10.1021/bc200396r. Epub 2012 Mar 23.

PMID:
22424277
4.

Magnetic enzyme nanogel (MENG): a universal synthetic route for biocatalysts.

Lin M, Lu D, Zhu J, Yang C, Zhang Y, Liu Z.

Chem Commun (Camb). 2012 Apr 4;48(27):3315-7. doi: 10.1039/c2cc30189j. Epub 2012 Feb 23.

PMID:
22362334
5.
6.

Relaxivity control of magnetic nanoclusters for efficient magnetic relaxation switching assay.

Cha J, Kwon YS, Yoon TJ, Lee JK.

Chem Commun (Camb). 2013 Jan 18;49(5):457-9. doi: 10.1039/c2cc36863c.

PMID:
23100091
7.
8.

[Phase transition in the matrix as a regulator of enzymatic activity of proteinases].

Eremeev NL, Kazanskaia NF.

Bioorg Khim. 1998 May;24(5):356-63. Russian.

PMID:
9661789
9.

Studying the effect of particle size and coating type on the blood kinetics of superparamagnetic iron oxide nanoparticles.

Roohi F, Lohrke J, Ide A, Schütz G, Dassler K.

Int J Nanomedicine. 2012;7:4447-58. doi: 10.2147/IJN.S33120. Epub 2012 Aug 10.

10.

Three-dimensional magnetic assembly of microscale hydrogels.

Xu F, Wu CA, Rengarajan V, Finley TD, Keles HO, Sung Y, Li B, Gurkan UA, Demirci U.

Adv Mater. 2011 Oct 4;23(37):4254-60. doi: 10.1002/adma.201101962. Epub 2011 Aug 10. No abstract available.

11.

Immobilization of β-d-galactosidase from Kluyveromyces lactis on functionalized silicon dioxide nanoparticles: characterization and lactose hydrolysis.

Verma ML, Barrow CJ, Kennedy JF, Puri M.

Int J Biol Macromol. 2012 Mar 1;50(2):432-7. doi: 10.1016/j.ijbiomac.2011.12.029. Epub 2012 Jan 2.

PMID:
22230612
12.

The effect of magnetically induced linear aggregates on proton transverse relaxation rates of aqueous suspensions of polymer coated magnetic nanoparticles.

Saville SL, Woodward RC, House MJ, Tokarev A, Hammers J, Qi B, Shaw J, Saunders M, Varsani RR, St Pierre TG, Mefford OT.

Nanoscale. 2013 Mar 7;5(5):2152-63. doi: 10.1039/c3nr32979h. Epub 2013 Feb 6.

PMID:
23389324
13.

Covalent immobilization of Kluyveromyces fragilis β-galactosidase on magnetic nanosized epoxy support for synthesis of galacto-oligosaccharide.

Liu H, Liu J, Tan B, Zhou F, Qin Y, Yang R.

Bioprocess Biosyst Eng. 2012 Oct;35(8):1287-95. doi: 10.1007/s00449-012-0716-2. Epub 2012 Mar 8.

PMID:
22398930
14.

Casein hydrolysis in PEG-salt two phase system by Eudragit-chymotrypsin bioconjugate.

Teotia S, Sharma S, Gupta MN.

Biotechnol Lett. 2003 Apr;25(8):637-9.

PMID:
12882158
15.

Combining magnetic field induced locomotion and supramolecular interaction to micromanipulate glass fibers: toward assembly of complex structures at mesoscale.

Cheng M, Gao H, Zhang Y, Tremel W, Chen JF, Shi F, Knoll W.

Langmuir. 2011 Jun 7;27(11):6559-64. doi: 10.1021/la201399w. Epub 2011 May 4.

PMID:
21542598
16.

Towards nanoscale biomedical devices in medicine: biofunctional and spectroscopic characterization of superparamagnetic nanoparticles.

Parracino A, Gajula GP, di Gennaro AK, Neves-Petersen MT, Rafaelsen J, Petersen SB.

J Fluoresc. 2011 Mar;21(2):663-72. doi: 10.1007/s10895-010-0754-6. Epub 2010 Nov 25.

PMID:
21107664
17.

Immobilization of β-galactosidase on novel polymers having Schiff bases.

Aynacı E, Sarı N, Tümtürk H.

Artif Cells Blood Substit Immobil Biotechnol. 2011 Aug;39(4):259-66. doi: 10.3109/10731199.2011.555837. Epub 2011 Feb 16.

PMID:
21323488
18.

Synthesis of a novel magnetic drug delivery system composed of doxorubicin-conjugated Fe3O4 nanoparticle cores and a PEG-functionalized porous silica shell.

Chen FH, Zhang LM, Chen QT, Zhang Y, Zhang ZJ.

Chem Commun (Camb). 2010 Dec 7;46(45):8633-5. doi: 10.1039/c0cc02577a. Epub 2010 Oct 12.

PMID:
20941412
19.

Catalytic behaviors of enzymes attached to nanoparticles: the effect of particle mobility.

Jia H, Zhu G, Wang P.

Biotechnol Bioeng. 2003 Nov 20;84(4):406-14.

PMID:
14574697
20.

Facile synthesis of amino-silane modified superparamagnetic Fe3O4 nanoparticles and application for lipase immobilization.

Cui Y, Li Y, Yang Y, Liu X, Lei L, Zhou L, Pan F.

J Biotechnol. 2010 Oct 1;150(1):171-4. doi: 10.1016/j.jbiotec.2010.07.013. Epub 2010 Jul 16.

PMID:
20638425
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