Zuckermann Publications

	41.	Influence of Monomer Structural Elements in Hydrophilic Peptoids Beausoleil, E., Truong, K.T., Kirshenbaum, K. & Zuckermann, R.N. in Innovations and Perspectives in Solid Phase Synthesis and Combinatorial Libraries: Peptides, Proteins and Nucleic Acids (ed. Epton, R.) 239-242 (Mayflower Scientific Press, Kingswinford, UK, 2001).
	42.	The Application of Combinatorial Chemistry in Agrochemical Discovery Kleschick, W.A., Davis, L.N., Dick, M.R., Garlich, J.R., Martin, E.J., Orr, N., Ng, S.C., Pernich, D.J., Unger, S.H., Watson, G.B. & Zuckermann, R.N. in ACS Symp. Ser. N. 774 (eds. Baker, D.R. & Umetsu, N.K.) (American Chemical Society, 2001).
	43.	Peptoid Oligomers with alpha-Chiral Side Chains: Sequence Requirements for the Formation of Stable Peptoid Helices. Wu, C.W., Sanborn, T.J., Huang, K., Zuckermann, R.N. & Barron, A.E. J. Am. Chem. Soc. 123, 6778-6784 (2001). Supporting Info.
	44.	Peptoid Oligomers with alpha-Chiral, Aromatic Sidechains: Effects of Chain Length on Secondary Structure. Wu, C.W., Sanborn, T.J., Zuckermann, R.N. & Barron, A.E. J. Am. Chem. Soc. 123, 2958-2963 (2001). Supporting Info.

45.

Improving SH3 Domain Ligand Selectivity Using a Non-natural Scaffold.
Nguyen, J.T., Porter, M., Amoui, M., Miller, T.W., Zuckermann, R.N. & Lim, W.A. Chem. Biol. 7, 463-473 (2000).

	46.	Bioinspired Polymeric Materials: In-between Proteins and Plastics. Barron, A.E. & Zuckermann, R.N. Curr. Op. Chem. Biol. 3, 681-687 (1999).
	47.	Designing Polymers that Mimic Biomolecules. Kirshenbaum, K., Zuckermann, R.N. & Dill, K.A. Curr. Opin. Struct. Biol. 9, 530-535 (1999).
	48.	New Submonomers for Poly N-Substituted Glycines (Peptoids). Uno, T., Beausoleil, E., Goldsmith, R.A., Levine, B.H. & Zuckermann, R.N. Tetrahedron Lett. 40, 1475-1478 (1999).
	49.	Parallel Personal Comments on "Classical" Papers in Combinatorial Chemistry. Lebl, M. J. Comb. Chem. 1, 3-24 (1999). See pages 17 - 18.

	50.	NMR Determination of the Major Solution Conformation of a Peptoid Pentamer with Chiral Side Chains. Armand, P., Kirshenbaum, K., Goldsmith, R.A., Farr-Jones, S., Barron, A.E., Truong, K.T.V., Dill, K.A., Mierke, D.F., Cohen, F.E., Zuckermann, R.N. & Bradley, E.K. Proc. Natl. Acad. Sci. U. S. A. 95, 4309-4314 (1998).
	51.	Lipitoids - novel cationic lipids for cellular delivery of plasmid DNA in vitro. Huang, C.-Y., Uno, T., Murphy, J.E., Lee, S., Hamer, J.D., Escobedo, J.A., Cohen, F.E., Radhakrishnan, R., Dwarki, V. & Zuckermann, R.N. Chem. Biol. 5, 345-354 (1998).
	52.	Sequence-Specific Polypeptoids: A Diverse Family of Heteropolymers with Stable Secondary Structure. Kirshenbaum, K., Barron, A.E., Goldsmith, R.A., Armand, P., Bradley, E.K., Truong, K.T.V., Dill, K.A., Cohen, F.E. & Zuckermann, R.N. Proc. Natl. Acad. Sci. U. S. A. 95, 4303-4308 (1998).
	53.	A Combinatorial Approach to the Discovery of Efficient Cationic Peptoid Reagents for Gene Delivery. Murphy, J.E., Uno, T., Hamer, J.D., Cohen, F.E., Dwarki, V. & Zuckermann, R.N. Proc. Natl. Acad. Sci. U. S. A. 95, 1517-1522 (1998).
	54.	Exploiting the Basis of Proline Recognition by SH3 and WW Domains: Design of N-Substituted Inhibitors. Nguyen, J.T., Turck, C.W., Cohen, F.E., Zuckermann, R.N. & Lim, W.A. Science 282, 2088-2092 (1998).

	55.	Chiral N-Substituted Glycines Can Form Stable Helical Conformations. Armand, P., Kirshenbaum, K., Falicov, A., Jr., R.L.D., Dill, K.A., Zuckermann, R.N. & Cohen, F.E. Folding Des. 2, 369-375 (1997).
	56.	NMR Structural Characterization of Oligo-N-substituted Glycine Lead Compounds from a Combinatorial Library. Bradley, E.K., Kerr, J.M., Richter, L.S., Figliozzi, G.M., Goff, D.A., Zuckermann, R.N., Spellmeyer, D.C. & Blaney, J.M. Mol. Diversity 3, 1-15 (1997).
	57.	Developing a General Strategy for the Solid Supported Synthesis of Heterocycles: Applications to the Generation of Molecular Diversity and Drug Discovery. Nuss, J.M., Desai, M.C., Zuckermann, R.N., Singh, R., Renhowe, P.A., Goff, D.A., Chinn, J.P., Wang, L., Dorr, H., Brown, E.G. & Subrumanian, S. Pure Appl. Chem. 69 (1997).
	58.	Submonomer Approaches for the Generation of Molecular Diversity: Non-natural Oligomer and Organic Template Libraries Richter, L.S., Goff, D.A., Spear, K.S., Martin, E.J. & Zuckermann, R.N. in Combinatorial Chemistry and Molecular Diversity in Drug Discovery (eds. Gordon, E.M. & Kerwin, J.F.) 151-163 (Wiley-Liss, New York, 1997).

	59.	Accelerating Drug Discovery by High-Throughput Combinatorial Synthesis. Banville, S.C. & Zuckermann, R.N. ISLAR '96 Proceedings, 77-92 (1996).
	60.	Synthesis of N-(substituted)glycine Peptoid Libraries. Figliozzi, G.M., Goldsmith, R., Ng, S., Banville, S.C. & Zuckermann, R.N. Methods Enzymol. 267, 437-447 (1996).
	61.	Pharmacologic Characterization of CHIR 2279, an N-Substituted Glycine Peptoid with High-Affinity Binding for alpha1-Adrenoreceptors. Gibbons, J.A. et al. J. Pharm. Exp. Ther. 277, 885-899 (1996).
	62.	The Synthesis of 2-Oxopiperazines by Intramolecular Michael Addition on Solid Support. Goff, D.A. & Zuckermann, R.N. Tetrahedron Lett. 37, 6247-6250 (1996).
	63.	Automated Synthesis of Non-Natural Oligomer Libraries: The Peptoid Concept Richter, L.S., Spellmeyer, D.C., Martin, E.J., Figliozzi, G.M. & Zuckermann, R.N. in Peptide and Nonpeptide Libraries (ed. Jung, G.) 387-404 (VCH Publishers, Weinheim, 1996).

	64.	Solid-Phase Synthesis of Defined 1,4-Benzodiazepine-2,5-dione Mixtures. Goff, D.A. & Zuckermann, R.N. J. Org. Chem. 60, 5744-5745 (1995).
	65.	Solid-Phase Synthesis of Highly Substituted Peptoid 1(2H)-Isoquinolinones. Goff, D.A. & Zuckermann, R.N. J. Org. Chem. 60, 5748-5749 (1995).
	66.	Comparison of the Proteolytic Susceptibilities of Homologous L-Amino Acid, D-Amino Acid, and N-Substituted Glycine Peptide and Peptoid Oligomers. Miller, S.M., Simon, R.J., Ng, S., Zuckermann, R.N., Kerr, J.M. & Moos, W.H. Drug Dev. Res. 35, 20-32 (1995).
	67.	Synthesis of Peptide Nucleic Acids (PNA) by Submonomer Solid Phase Synthesis. Richter, L.S. & Zuckermann, R.N. Bioorg. Med. Chem. Lett 5, 1159-1162 (1995).

	68.	Recent Advances in the Generation of Chemical Diversity Libraries. Desai, M.C., Zuckermann, R.N. & Moos, W.H. Drug Devel. Res. 33, 174-188 (1994).
	69.	Free C-terminal Resin-bound Peptides: Reversal of Peptide Orientation via a Cyclization/Cleavage Protocol. Kania, R.S., Zuckermann, R.N. & Marlowe, C.K. J. Am. Chem. Soc. 116, 8835-8836 (1994).
	70.	Proteolytic Studies of Homologous peptide and N-Substituted Glycine Peptoid Oligomers. Miller, S.M., Simon, R.J., Ng, S., Zuckermann, R.N., Kerr, J.M. & Moos, W.H. Bioorg. Med. Chem. Lett. 4, 2657-2662 (1994).
	71.	Using Peptoid Libraries [Poly N-Substituted Glycines] for Drug Discovery. Simon, R.J., Martin, E.J., Miller, S.M., Zuckermann, R.N., Blaney, J.M. & Moos, W.H. Techniques in Protein Chemistry V, 533-539 (1994).
	72.	Automated Tools for the Production of Non-Natural Molecular Diversity Zuckermann, R.N., Figliozzi, G.M., Banville, S.C., Kerr, J.M., Siani, M.A., Martin, E.J., Brown, E.G. & Wang, L. in Innovations and Perspectives in Solid-Phase Synthesis (ed. Epton, R.) 397-402 (Mayflower Worldwide Ltd., Oxford, 1994).
	73.	Synthesis of (N-Substituted)Glycine Polymers of Defined Length and Sequence. Zuckermann, R.N. & Goff, D.A. Polymer Preprints 35, 975-976 (1994).
	74.	Discovery of Nanomolar Ligands for 7-Transmembrane G-Protein Coupled Receptors from a Diverse (N-Substituted)Glycine Peptoid Library. Zuckermann, R.N. et al. J. Med. Chem. 37, 2678-2685 (1994).

	75.	Molecular Mechanics Calculations of the Structures of Polyamide Nucleic Acid DNA Duplexes and Triple Helical Hybrids. Almarsson, Ö., Bruice, T.C., Kerr, J. & Zuckermann, R.N. Proc. Natl. Acad. Sci. U. S. A. 90, 7518-7522 (1993).
	76.	Identification of Antibody Mimotopes Containing Non-natural Amino Acids by Recombinant and Synthetic Peptide Library Affinity Selection Methods. Kerr, J.M., Banville, S.C. & Zuckermann, R.N. Bioorg. Med. Chem. Lett. 3, 405-412 (1993).
	77.	Encoded Combinatorial Peptide Libraries Containing Non-natural Amino Acids. Kerr, J.M., Banville, S.C. & Zuckermann, R.N. J. Am. Chem. Soc. 115, 2529-2531 (1993).
	78.	The Chemical Synthesis of Peptidomimetic Libraries. Zuckermann, R.N. Curr. Opin. Struct. Biol. 3, 580-584 (1993).

	79.	Automated Tools for Drug Discovery: Robotic Equimolar Peptide Mixture Synthesis. Banville, S.C., Kerr, J.M., Siani, M.A. & Zuckermann, R.N. Proceedings of the International Symposium on Laboratory Automation and Robotics, 429-442 (1992).
	80.	Simplified Methods for Construction, Assessment and Rapid Screening of Peptide Libraries in Bacteriophage. Christian, R.B., Zuckermann, R.N., Kerr, J.M., Wang, L. & Malcolm, B.A. J. Mol. Biol. 227, 711-718 (1992).
	81.	Peptoids: A Modular Approach to Drug Discovery. Simon, R.J. et al. Proc. Natl. Acad. Sci. U. S. A. 89, 9367-9371 (1992).
	82.	Automated Peptide-Resin Deprotection/Cleavage by a Robotic Workstation. Zuckermann, R.N. & Banville, S.C. Pept. Res. 5, 169-174 (1992).
	83.	Efficient Method for the Preparation of Peptoids [Oligo(N-substituted glycines)] by Submonomer Solid Phase Synthesis. Zuckermann, R.N., Kerr, J.M., Kent, S.B.H. & Moos, W.H. J. Am. Chem. Soc. 114, 10646-10647 (1992).
	84.	Identification of Highest-Affinity Ligands by Affinity Selection from Equimolar Peptide Mixtures Generated by Robotic Synthesis. Zuckermann, R.N., Kerr, J.M., Siani, M.A., Banville, S.C. & Santi, D.V. Proc. Natl. Acad. Sci. U. S. A. 89, 4505-4509 (1992).
	85.	Control of the Zymate Robot with an External Computer: Construction of a Multiple Peptide Synthesizer. Zuckermann, R.N., Siani, M.A. & Banville, S.C. Lab. Rob. Autom. 4, 183-192 (1992).
	86.	Construction and Application of a Fully Automated Equimolar Peptide Mixture Synthesizer. Zuckermann, R.N., Siani, M.A. & Banville, S.C. Design, In. J. Pept. Protein Res. 40, 498-507 (1992).

UC Berkeley (1984 - 1989)

	87.	Hybrid Enzymes and the Sequence-Specific Cleavage of Nucleic Acids Corey, D.R., Zuckermann, R.N. & Schultz, P.G. in Bioorganic Chemistry Frontiers (ed. Dugas, H.) 1-31 (Springer-Verlag, Berlin, 1991).
	88.	Site-Selective Cleavage of Structured RNA by a Staphylococcal Nuclease-DNA Hybrid. Zuckermann, R.N. & Schultz, P.G. Proc. Natl. Acad. Sci. U. S. A. 86, 1766-1770 (1989).
	89.	Site-Selective Cleavage of RNA by a Hybrid Enzyme. Zuckermann, R.N., Corey, D.R. & Schultz, P.G. J. Am. Chem. Soc. 110, 1614-1615 (1988).
	90.	A Hybrid Sequence-Selective Ribonuclease S. Zuckermann, R.N. & Schultz, P.G. J. Am. Chem. Soc. 110, 6592-6594 (1988).
	91.	Efficient Methods for Attachment of Thiol-Specific Probes to the 3'-end of Synthetic Oligodeoxyribonucleotides. Zuckermann, R., Corey, D. & Schultz, P. Nucleic Acids Res. 15, 5305-5321 (1987).

Harvey Mudd College (1980 - 1984)

92.

A Synthesis of 2-Fluoro-2-alkenes.
Daub, G.W., Zuckermann, R.N. & Johnson, W.S. J. Org. Chem. 50, 1599-1602 (1985).

Brookhaven National Laboratory (1983)

93.

Dynamic Cis-Trans Isomerization of Retinal in Dark-Adapted Bacteriorhodopsin.
Seltzer, S. & Zuckermann, R. J. Am. Chem. Soc. 107, 5523-5525 (1985).

1.	Shaken, not stirred: Collapsing a peptoid monolayer to produce free-floating, stable nanosheets. Sanii, B.; Kudirka, R.; Cho, A.; Venkateswaran, N.; Oliver, G.K.; Olson, A.M.; Tran, H.; Harada, R.M.; Tan, L.; Zuckermann, R.N., J. Am. Chem. Soc., 133, 20808-20815 (2011). Supporting Info. Supplementary Movie 1 (Sheets from shaken vial) Supplementary Movie 2 (Sheets from rotated vial) Supplementary Movie 3 (SheetRocker vial rotator instrument)	LBNL press release: "Shaken, not Stirred"
2.	Protein Side-Chain Translocation Mutagenesis via Incoproration of Peptoid Residues. Lee, B.-C.; Zuckermann, R.N., ACS Chem. Biol., 6, 1367-1374 (2011).
3.	Solid-phase Submonomer Synthesis of Peptoid Polymers and their Self-Assembly into Highly-Ordered Nanosheets. Tran, H.; Gael, S.L.; Connolly, M.D.; Zuckermann, R.N., J. Vis. Exp., 57, e3373, (2011). Online video (14 min). DOI : 10.3791/3373	Video preview in "This month in JoVE" (1 min).
4.	Protein Mimicry with Bioinspired Peptoid Polymers. Zuckermann, R.N. Proc. 22nd Amer. Pep. Symp., 174-175 (2011).
5.	Peptoid Origins. Zuckermann, R.N. Pept. Sci., 96, 545-555 (2011).
6.	A Universal Method for Detection of Amyloidogenic Misfolded Proteins. Yam, A.Y.; Wang, X.; Gao, C.; Connolly, M.D.; Zuckermann, R.N.; Bleua, T.; Halla, J.; Fedynyshyn, J.; Allauzen, S.; Peretz, D.; Salisbury, C.M., Biochem., 50, 4322-4329 (2011). Supporting Info.	LBNL press release: "Into the (Mis)fold"
7.	Peptoids - Synthesis, Characterization, and Nanostructures. Seo, J.; Lee, B.-C.; Zuckermann, R.N., In: P. Ducheyne, K.E. Healy, D.W. Hutmacher, D.W. Grainger, C.J. Kirkpatrick (eds.) Comprehensive Biomaterials, vol. 2, pp. 53-76 Elsevier.
8.	Folding of a Single-Chain, Information-Rich Polypeptoid Sequence into a Highly-Ordered Nanosheet. Kudirka, R.; Tran, H.; Sanii, B.; Nam, K.T.; Choi, P.H.; Venkateswaran, N.; Chen, R.; Whitelam, S.; Zuckermann, R.N., Pept. Sci., 96, 586-595 (2011).
9.	BMHP1-derived self-assembling peptides: hierarchically assembled structures with self-healing propensity and potential for tissue engineering applications. Gelain, F.; Silva, D.; Villa, O.; Taraballi, F.; Natalello, A.; Caprini, A.; Nam, K.T.; Zuckermann, R.N.; Doglia, S.M.; Vescovi, A., ACS Nano, 5, 1845-1859 (2011).
10.	Engineered Biomimetic Polymers as Tunable Agents for Controlling CaCO3 Mineralization. Chen, C.-L.; Qi, J.; Zuckermann, R.N.; DeYoreo, J.J., J. Am. Chem. Soc., 133, 5214-5217 (2011). Supporing Info.	Top story in EFRC Newsletter: "Turning Greenhouse Gas to Stone"
11.	Stabilization of nanoparticles under biological assembly conditions using peptoids. Robinson, D.B.; Buffleben, G.M.; Langham, M.E.; Zuckermann, R.N., Pept. Sci., 96, 669-678 (2011).

12.	AB40 Oligomers Identified as a Potential Biomarker for the Diagnosis of Alzheimer’s Disease. Gao, C.M.; Yam, A.Y.; Wang, X.; Magdangal, E.; Salisbury, C.; Peretz, D.; Zuckermann, R.N.; Connolly, M.D.; Hansson, O.; Minthon. L.; Zetterberg, H.; Blennow, K.; Fedynyshyn, J.P.; Allauzen, S., PLoS ONE, 5, e15725 (2010).
13.	Hierarchical Self-Assembly of a Biomimetic Diblock Copolypeptoid into Homochiral Super Helices. Murnen, H.K.; Rosales, A.M.; Jaworski, J.N.; Segalman, R.A.; Zuckermann, R.N., J. Am. Chem. Soc., 132, 16112-16119 (2010). Supporting Info. DKP_crystal.cif	LBNL press release: "A Nanoscale Rope"
14.	Control of Crystallization and Melting Behavior in Sequence Specific Polypeptoids. Rosales, A.M.; Murnen, H.K.; Zuckermann, R.N.; Segalman, R.A., Macromolecules, 43, 5627-5636 (2010). Supporting Info.
15.	Free-floating ultra-thin two-dimensional crystals from sequence-specific peptoid polymers. Nam, K.T.; Shelby, S.A.; Marciel, A.B.; Choi, P.C.; Chen, R.; Tan, L.; Chu, T.K.; Mesch, R.A.; Lee, B.-C.; Connolly, M.D.; Kisielowski, C.; Zuckermann, R.N. Nature Mater., 9, 454-460 (2010). Supporting Info. Supplementary Movie S1.	LBNL press release: "Berkeley Lab Scientists Create ‘Molecular Paper’"
16.	Gold Nanoparticle Self-Similar Chain Structure Organized by DNA Origami. Ding, B.; Deng, Z.; Yan, H.; Cabrini, S.; Zuckermann, R.N.; Bokor, J., J. Am. Chem. Soc., 132, 3248-3249 (2010). Supporting Info.
17.	Templated display of biomolecules and inorganic nanoparticles by metal ion-induced peptide nanofibers. Lee, B.-C.; Zuckermann, R.N., Chem. Comm., 46, 1634-1636 (2010). Supporting Info.
18.	Novel Peptoid Building Blocks: Synthesis of Functionalized Aromatic Helix-Inducing Submonomers. Seo, J.; Barron, A.E.; Zuckermann, R.N., Org. Lett. 12, 492-495 (2010). Supporting Info.
19.	Rapid Multistep Synthesis of a Bioactive Peptidomimetic Oligomer for the Undergraduate Laboratory. Utku, Y.; Rohatgi, A.; Yoo, B.; Kirshenbaum, K.; Zuckermann, R.N.; Pohl, N.L., J. Chem. Ed. 87, 637-639 (2010).

	20.	High-Throughput Sequencing of Peptoids and Peptide−Peptoid Hybrids by Partial Edman Degradation and Mass Spectrometry. Thakkar, A.; Cohen, A.S.; Connolly, M.D.; Zuckermann, R.N.; Pei, D., J. Comb. Chem. 11, 294-302 (2009). Supporting Info.
	21.	DNA directed assembly of nanoparticle linear structure for nanophotonics. Ding, B.; Cabrini, S.; Zuckermann, R.N.; Bokor, J., J. Vac. Sci. Technol. B, 27, 184-187 (2009).
	22.	Peptoids as Potential Therapeutics. Zuckermann, R.N.; Kodadek, T., Curr. Op. Mol. Ther. 11, 299-307 (2009).
	23.	Close mimicry of lung surfactant protein B by "clicked" dimers of helical, cationic peptoids. Dohm, M.T.; Seurynck-Servoss, S.L.; Seo, J.; Zuckermann, R.N.; Barron, A.E., Peptide Sci. 92, 538-553 (2009). Supporting Info.

24.	Biomimetic Nanostructures: Creating a High-Affinity Zinc-Binding Site in a Folded Nonbiological Polymer. Lee, B.-C.; Chu, T.K.; Dill, K.A.; Zuckermann, R.N., J. Am. Chem. Soc. 130, 8847-8855 (2008). Supporting info.	LBNL press release: "Nano-sized Jaws Perform Like Proteins"
25.	Intranasal administration delivers peptoids to the rat central nervous system. Ross, T.M.; Zuckermann, R.N.; Reinhard, C.; Frey, W.H., Neuroscience Letters, 439, 30-33, (2008).
26.	In vitro self-assembly of tailorable nanotubes from a simple protein building block. Ballister, E.R.; Lai, A.H.; Zuckermann, R.N.; Cheng, Y.; Mougous, J.D., Proc. Natl. Acad. Sci. U. S. A. 105, 3733-3738 (2008).	LBNL press release: "A Tailorable Nanotube, Formed by a Ring-shaped Protein"
27.	Peptoids that mimic the structure, function and mechanism of helical antimicrobial peptides. Chongsiriwatana, N.P.; Patch, J.A.; Czyzewski, A.M.; Dohm, M.T.; Ivankin, A.; Gidalevitz, D.; Zuckermann, R.N.; Barron, A.E., Proc. Natl. Acad. Sci. U. S. A. 105, 2794-2799 (2008).

	29.	A peptidomimetic siRNA transfection reagent for highly effective gene silencing. Utku, Y.; Dehan, E.; Ouerfelli, O.; Piano, F.; Zuckermann, R.N.; Pagano, M.; Kirshenbaum, K. Mol. BioSyst. 2, 312-317 (2006)
	30.	A Threaded Loop Conformation Adopted by a Family of Peptoid Nonamers. Huang, K.; Wu, C. W.; Sanborn, T. J.; Patch, J. A.; Kirshenbaum, K.; Zuckermann, R. N.; Barron, A. E.; Radhakrishnan, I., J. Am. Chem. Soc. 128, 1733-1738 (2006).
	31.	A Cleavable Hydrophilic Linker for One-Bead-One-Compound Sequencing of Oligomer Libraries by Tandem Mass Spectrometry. Paulick, M. G.; Hart, K. M.; Brinner, K. M.; Tjandra, M.; Charych, D. H.; Zuckermann, R. N., J. Comb. Chem. 8, 417-426 (2006).

	32.	Synthesis of Long Non-natural Sequence-Specific Heteropolymers. Lee, B.-C., Dill, K.A. & Zuckermann, R.N. Polymer Preprints 46, 174-175 (2005).
	33.	Folding a Nonbiological Polymer into a Compact Multihelical Structure. Lee, B.-C., Zuckermann, R.N. & Dill, K.A. J. Am. Chem. Soc. 127,10999-11009 (2005). Supporting Info.

	34.	Incorporation of Chemoselective Functionalities into Peptoids via Solid-Phase Submonomer Synthesis. Horn, T., Lee, B.-C., Dill, K.A. & Zuckermann, R.N. Bioconj. Chem. 15, 428-435 (2004).
	35.	Versatile Oligo(N-Substituted) Glycines: The Many Roles of Peptoids in Drug Discovery Patch, J.A., Kirshenbaum, K., Seurynck, S.L., Zuckermann, R.N. & Barron, A.E. in Pseudo-Peptides in Drug Discovery (ed. Nielsen, P.E.) 1-31 (Wiley-VCH, Weinheim, 2004).

	36.	Incorporation of Unprotected Heterocyclic Side Chains into Peptoid Oligomers via Solid-Phase Submonomer Synthesis. Burkoth, T.S., Fafarman, A.T., Charych, D.H., Connolly, M.D. & Zuckermann, R.N. J. Am. Chem. Soc. 125, 8841-8845 (2003).
	37.	Structure/Function Analysis of Peptoid/Lipitoid: DNA Complexes. Lobo, B.A., Vetro, J.A., Suich, D.M., Zuckermann, R.N. & Middaugh, R.C. J. Pharm. Sci. 92, 1905-1918 (2003).
	38.	Structural and Spectroscopic Studies of Peptoid Oligomers with alpha-Chiral Aliphatic Side Chains. Wu, C.W., Kirshenbaum, K., Sanborn, T.J., Patch, J.A., Huang, K., Dill, K.A., Zuckermann, R.N. & Barron, A.E. J. Am. Chem. Soc. 125, 13525-13530 (2003).

	39.	Toward the Synthesis of Artificial Proteins: The Discovery of an Amphiphilic Helical Peptoid Assembly. Burkoth, T.S., Beausoleil, E., Kaur, S., Tang, D., Cohen, F.E. & Zuckermann, R.N. Chemistry & Biology 9, 647-654 (2002). Supporting Info.
	40.	Extreme stability of helices formed by water-soluble poly-N-substituted glycines (polypeptoids) with alpha-chiral side chains. Sanborn, T.J., Wu, C.W., Zuckermann, R.N. & Barron, A.E. Biopolymers 63, 12-20 (2002).