Supporting Technology
Bibliographic References tagged with Supporting Technology
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S.-K. Choi, M. Mammen, and G. M. Whitesides. 1997. “Generation and In Situ Evaluation of Libraries of Poly(Acrylic Acid) Presenting Sialosides As Side Chains As Polyvalent Inhibitors of Influenza-Mediated Hemagglutination”. J. Am. Chem. Soc., 119, Pp. 4103-11
S.-K. Choi, M. Mammen, and G. M. Whitesides. 1997. “Generation and In Situ Evaluation of Libraries of Poly(Acrylic Acid) Presenting Sialosides As Side Chains As Polyvalent Inhibitors of Influenza-Mediated Hemagglutination”. J. Am. Chem. Soc., 119, Pp. 4103-11
J. D. Carbeck, I. J. Colton, J. R. Anderson, J. Deutch, and G. M. Whitesides. 1999. “Correlations Between the Charge of Proteins and the Number of Ionizable Groups They Incorporate: Studies Using Protein Charge Ladders, Capillary Electrophoresis, and Debye-Hückel Theory”. J. Am. Chem. Soc., 121, Pp. 10671-79
J. D. Carbeck, I. J. Colton, J. R. Anderson, J. Deutch, and G. M. Whitesides. 1999. “Correlations Between the Charge of Proteins and the Number of Ionizable Groups They Incorporate: Studies Using Protein Charge Ladders, Capillary Electrophoresis, and Debye-Hückel Theory”. J. Am. Chem. Soc., 121, Pp. 10671-79
M. Boncheva, D. H. Gracias, H. O. Jacobs, and G. M. Whitesides. 2002. “Biomimetic Self-Assembly of a Functional Asymmetrical Electronic Device”. Proc. Nat. Acad. Sci. USA, 99, Pp. 4937-40
M. Boncheva, D. H. Gracias, H. O. Jacobs, and G. M. Whitesides. 2002. “Biomimetic Self-Assembly of a Functional Asymmetrical Electronic Device”. Proc. Nat. Acad. Sci. USA, 99, Pp. 4937-40
S. J. Metallo, R. S. Kane, R. E. Holmlin, and G. M. Whitesides. 2003. “Using Bifunctional Polymers Presenting Vancomycin and Fluorescein Groups to Direct Anti-Fluorescein Antibodies to Self-Assembled Monolayers Presenting D-Alanine-D-Alanine Groups”. J. Am. Chem. Soc., 125, Pp. 4534-40
S. J. Metallo, R. S. Kane, R. E. Holmlin, and G. M. Whitesides. 2003. “Using Bifunctional Polymers Presenting Vancomycin and Fluorescein Groups to Direct Anti-Fluorescein Antibodies to Self-Assembled Monolayers Presenting D-Alanine-D-Alanine Groups”. J. Am. Chem. Soc., 125, Pp. 4534-40
C. Cheng, A. W. Martinez, J. Gong, C. R. Mace, S. T. Phillips, E. Carrilho, K. A. Mirica, and G. M. Whitesides. 2010. “Paper-Based ELISA”. Angew. Chemie., 122, Pp. 4881-84
C. Cheng, A. W. Martinez, J. Gong, C. R. Mace, S. T. Phillips, E. Carrilho, K. A. Mirica, and G. M. Whitesides. 2010. “Paper-Based ELISA”. Angew. Chemie., 122, Pp. 4881-84
C-H. Wong and G. M. Whitesides. 1983. “Enzyme-Catalyzed Organic Synthesis: Regeneration of Deuterated Nicotinamide Cofactors for Use in Large-Scale Enzymatic Synthesis of Deuterated Substances”. J. Am. Chem. Soc., 105, Pp. 5012-14
C-H. Wong and G. M. Whitesides. 1983. “Enzyme-Catalyzed Organic Synthesis: Regeneration of Deuterated Nicotinamide Cofactors for Use in Large-Scale Enzymatic Synthesis of Deuterated Substances”. J. Am. Chem. Soc., 105, Pp. 5012-14
D.C. Crans and G. M. Whitesides. 1983. “A Convenient Synthesis of Disodium Acetyl Phosphate for Use in Situ ATP Cofactor Regeneration”. J. Org. Chem., 26, Pp. 3130-32
D.C. Crans and G. M. Whitesides. 1983. “A Convenient Synthesis of Disodium Acetyl Phosphate for Use in Situ ATP Cofactor Regeneration”. J. Org. Chem., 26, Pp. 3130-32
G. M. Whitesides and C-H. Wong. 1983. “Enzymes As Catalysts in Organic Synthesis”. Aldrichimica Acta, 16, Pp. 27-34
G. M. Whitesides and C-H. Wong. 1983. “Enzymes As Catalysts in Organic Synthesis”. Aldrichimica Acta, 16, Pp. 27-34
A. Gross, O. Abril, J.M. Lewis, S. Geresh, and G. M. Whitesides. 1983. “Practical Synthesis of 5-Phospho-D-Ribosyl-a-1-Pyrophosphate (PRPP): Enzymatic Routes from Ribose-5-Phosphate or Ribose”. J. Am. Chem. Soc., 105, Pp. 7428-34
A. Gross, O. Abril, J.M. Lewis, S. Geresh, and G. M. Whitesides. 1983. “Practical Synthesis of 5-Phospho-D-Ribosyl-a-1-Pyrophosphate (PRPP): Enzymatic Routes from Ribose-5-Phosphate or Ribose”. J. Am. Chem. Soc., 105, Pp. 7428-34
D.R. Walt, V.M. Rios-Mercadillo, J. Augé, and G. M. Whitesides. 1984. “An Efficient Chemical and Enzymatic Synthesis of Nicotinamide Adenine Dinucleotide (NAD+)”. J. Am. Chem. Soc., 106, Pp. 234-39
D.R. Walt, V.M. Rios-Mercadillo, J. Augé, and G. M. Whitesides. 1984. “An Efficient Chemical and Enzymatic Synthesis of Nicotinamide Adenine Dinucleotide (NAD+)”. J. Am. Chem. Soc., 106, Pp. 234-39