Publications
1.
Conformations
of
Internal Cyclopropylcarbinyl Cations and Their Rearrangements to
Naphthalenium
Cations. Kelly, D. P.; Leslie, D. R.; Smith, B. D. J. Am. Chem. Soc., 1984, 106, 687-694 [pdf]
2.
Synthesis
of the
Barbaralone Nucleus via Photocyclization of an Alkynyl Tropone.
Feldman, K. S.;
Fogley, J.; Smith, B. D.; Parvez, M. Tetrahedron Lett., 1987, 607-610. [pdf]
3.
Structural
Factors
Controlling the Aggregation of Lithium Phenolates in Weakly Polar
Aprotic
Solvents. Jackman, L. M.; Smith,
B. D. J. Am. Chem. Soc.,
1988, 110, 3829-3835. [pdf]
4.
Structures
of Lithium
Salts of 2,3,3-Trimethylindolenine and its 5-Methoxy Derivative in
Solution and
the Solid State. Jackman, L. M.;
Scarmoutzos, L. M.; Smith, B. D.; Williard, P. G. J. Am. Chem. Soc., 1988, 110, 6058-6063. [pdf]
5.
Degenerate
Transesterification of 3,5-Dimethylphenolate/3,5-Dimethylphenyl Esters
in
Weakly Polar, Aprotic Solvents. Reactions of Aggregates and Coordinate
Induced
Proximity Effects. Jackman, L. M.; Smith, B. D.; Petrei, M. M. J.
Am. Chem.
Soc., 1991, 113,
3451-3458. [pdf]
6.
Side
Chain Specificity
in the Enzymatic Synthesis of Penicillins. Baldwin, J. E.; Schofield,
C. J.;
Smith, B. D. Tetrahedron,
1990,
46, 3019-3028. [pdf]
7.
Direct
Observation of a
Tetrahedral Boronic Acid/b-Lactamase Complex Using 11B
NMR Spectroscopy.
Baldwin, J. E.; Claridge, T.; Smith, B. D.; Twyman, M.; Waley,
S. G. Chem.
Commun. 1991,
573-574. [pdf]
8.
11B NMR Studies of Aryl Boronic Acids Bound
to
Chymotrypsin and Subtilisin. Baldwin, J. E.; Smith, B. D.; Claridge,
T.;
Derome, A. E.; Schofield, C. J. Bioorg. and Med. Chem. Letters, 1991, 1, 9-12. [pdf]
9.
4-Azido-3,5-[3H]-phenacyl Bromide, a Versatile
Bifunctional Reagent for Radio-photoaffinity Labelling. Synthesis of
Prostaglandin 4-Azido-3,5-[3H]-phenacyl
Esters. Smith, B. D.; Nakanishi, K.; Watanabe, K.; Ito, S. Bioconj.
Chem., 1990, 1,
363-364. [pdf]
10.
Biochemical
Characterization of Histamine H1 Receptors in
Bovine Adrenal Medulla.
Yamashita, M.; Ito, S.; Sugama, K.; Fukui, H.; Smith, B.D.; Nakanishi,
K.;
Wada, H. Biophys. Biochem. Res. Commun., 1991, 177, 1233-1239. (not available)
11.
A
Comparison of the Structures of
N-Chloroacetylindigo and
N,N-Bis(chloroacetyl)indigo in the Solid and Solution State. Smith, B. D.; Paugam, M. F.; Haller, K. J. J.
Chem. Soc.,
Perkin Trans. 2, 1993,
165-169. (not available)
12.
Photoregulation
of Enzyme Activity; Photochromic,
Transition-State-Analogue Inhibitors of Cysteine and Serine Proteases.
Westmark, P. R.; Kelly, J. P.; Smith, B. D. J. Am. Chem. Soc., 1993, 115, 3416-3419. [pdf]
13.
Active
Transport of Uridine Through a Liquid Organic
Membrane Mediated by Phenylboronic Acid and Driven by a Fluoride Ion
Gradient.
Paugam, M. -F; Smith, B. D. Tetrahedron
Lett., 1993, 34,
3723-3726. [pdf]
14.
[1,3]
Alkyl Migration as a Third Type of
N,N-Dialkanoylindigo Photochemistry. Smith, B. D.; Alonso, D.; Bien, J.
T.;
Zielinski, J.; Smith, S. L.; Haller, K. J. J. Org. Chem., 1993, 58, 6493-6496. [pdf]
15.
Evidence
for C-H...O Hydrogen Bonds Determining
N,N'-Diacylindigo Crystal Structure
Conformations. Smith, B. D.; Haller, K. J.; Shang, M. J. Org. Chem., 1993, 58, 6905-6908. [pdf]
16.
(a) Boric
Acid.
Smith, B. D.; Hughes, M. P. In, Encyclopedia of Reagents For
Organic
Synthesis, Paquette, L. A,
Ed.;
Wiley:Chichester, 1995, Vol. 1, 644-645.
(b) Sodium Tetraborate.
Smith, B. D.; Morin, G. T. In, Encyclopedia of Reagents For
Organic
Synthesis, Paquette, L. A,
Ed.;
Wiley:Chichester, 1995, Vol. 7, 4631-4633. (not available)
17.
Metal
Cation:Glucopyranoside Co-Transport Through a
Liquid Organic Membrane. Paugam, M. -F.; Morin, G. T.; Smith, B. D. Tetrahedron Lett., 1993, 34, 7841-7844. [pdf]
18.
The
Influence of Eluent Anions in Boronate Affinity
Chromatography, Westmark, P. R.; Valencia, L. S.; Smith, B. D. J.
Chromatogr., 1994, 664,
123-128. (not available)
19.
Boronic
Acids Mediate Glyoside Transport Through a
Liquid Organic Membrane Via Reversible Formation of Trigonal Boronate
Esters.
Morin,
G. T.; Paugam, M. -F.; Hughes, M. P.;
Smith, B. D. J. Org. Chem., 1994, 59, 2724-2728. [pdf]
20.
Transport
of Glycosides Through Liquid Organic
Membranes Mediated by Reversible Boronate Formation is a
Diffusion-Controlled
Process. Morin, G. T.; Hughes, M.
P.; M. -F. Paugam; Smith, B. D., J.
Am. Chem. Soc., 1994, 116,
8895-8901. [pdf]
21.
Boronic
Acids Selectively Facilitate Glucose
Transport Through a Lipid Bilayer. Westmark,
P. R.; Smith, B. D., J.
Am. Chem. Soc., 1994, 116,
9343-9344. Profiled in C&E
News, p. 45, November 21, 1994. [pdf]
22.
Selective
Dopamine Transport Using a Crown Boronic
Acid. Paugam, M. -F.; Valencia, L.
S.; Smith, B. D., J. Am. Chem. Soc.,
1994, 116, 11203-11204. [pdf]
23.
Diphenylborinic
Acid is a Strong Inhibitor of Serine
Proteases. Steiner, S. J.; Bien, J. T.; Smith, B. D. Bioorg. Med.
Chem.
Lett., 1994, 4,
2417-2420. [pdf]
24.
Photo-oxidation
of N,NÕ-Diacylindigo Dyes. Smith, B.
D.; Alonso, D.; Bien, J. T.; Metzler, E. C.; Shang, M.; Roosenburg, J.
M. J.
Org. Chem., 1994, 59,
8011-8014. [pdf]
25.
Modification
of a Boronic Acid Cleft Produces a
Sodium-Saccharide Cotransporter.
Bien, J. T.; Shang, M.; Smith, B. D. J. Org. Chem., 1995,
60, 2147-2152. [pdf]
26.
A Neutral
Paraquat Receptor That Uses Oriented
Dipoles Produced by Dative B-N Bonds.
Bien, J. T.; Eschner, M. J.;
Smith, B. D. J. Org Chem., 1995,
60, 4525-4529. [pdf]
27.
Boronic
Acids Facilitate the Transport of
Ribonucleosides Through Lipid Bilayers.
Westmark, P. R.; Smith, B. D., J. Pharm. Sci., 1996, 75, 266-269. [pdf]
28.
Liquid
Membrane Transport Using Boronic Acid
Carriers. Smith, B. D. Supramol.
Chem., 1996, 7,
55-60. [pdf]
29.
Sugar
Separation Using Liquid Membranes and Boronic
Acid Carriers. Smith B. D. In, Chemical
Separations with Liquid Membranes, Bartsch, R.
A., Way, J. D., Eds.; ACS
Symposium Series Number 642, ACS: Washington, 1996, Ch. 14.
(not available)
30.
Neutral
Organoboron Receptors With Oriented Dipoles,
Smith B. D. In, Molecular Design and Bioorganic Catalysis, Wilcox, C. S., Hamilton, A. D., Eds.;
Kluwer :
Dordrecht, 1996, pp 227-242. (not
available)
31.
7,7'-Bis[(18-azacrown-6)carbonyl]thioindigo.
Bien, J.
T.; Smith, B. D. Acta Cryst. Section C, 1996, 183-185. [pdf]
32.
Molecular
Recognition and Membrane Transport with
Mixed-Ligand Borates. Riggs, J.
A.; Litchfield, R. K.; Smith, B. D. J. Org. Chem., 1996, 61, 1148-1150. [pdf]
33.
Phenyl
Glycoside Recognition in Water with Stoddart's
Cyclobis(paraquat-p-phenylene) Receptor.
Staley, S. A.; Smith. B. D. Tetrahedron Lett., 1996, 283-286. [pdf]
34.
Crown
Nucleoside Monophosphate Diesters: A New Class
of Nucleoside Prodrugs. Morin, G.
T.; Smith. B. D. Tetrahedron Lett.,
1996, 3101-3104. [pdf]
35.
Facilitated
Catecholamine Transport Through Bulk and
Polymer-Supported Liquid Membranes.
Paugam, M. -F.; Bien, J. T.; Smith, B. D.; Chrisstoffels, S.; de
Jong,
F.; Reinhoudt, D. N., J. Am. Chem. Soc. 1996, 118, 9820-9825. [pdf]
36.
Selective
Monosaccharide Transport Through Lipid Bilayers
Using Boronic Acid carriers.
Westmark, P. R.; Gardiner, S. J.; Smith, B. D. J. Am. Chem.
Soc. 1996, 118,
11093-11100. [pdf]
37.
High
Fructose Syrup Production Using
Fructose-Selective Liquid Membranes.
Paugam, M. -F.; Riggs, J. A.; Smith, B. D., J. Chem.
Soc.Chem.
Commun. 1996,
2539-2540. [pdf]
38.
High
Affinity Carboxylate Binding Using Neutral
Urea-Based Receptors With Internal Lewis Acid Coordination. Hughes, M. P.; Shang, M.; Smith, B. D. J.
Org. Chem., 1996, 61,
4510-4511. [pdf]
39.
Nucleotide
Carrier Mixture With Transport Selectivity
For Ribonucleoside-5'-Phosphates.
Riggs, J. A.; Hossler, K. A.;
Smith, B. D.; Karpa, M. J.; Griffen,
G.; Duggan, P. J. Tetrahedron Lett.
1996, 1996, 35, 6303-6306. [pdf]
40.
Recognition
So Sweet. Duggan, P. J.; Smith, B. D. Chemistry
in Australia, 1997, 64,
9-11. (not available)
41.
Facilitated
Transport of Small Carbohydrates Through
Plasticized Cellulose Triacetate Membranes. Evidence
for Fixed-Site Jumping Transport Mechanism. Riggs,
J. A.; Smith, B.
D. J. Am. Chem. Soc.,
1997, 119,
2765-2766. [pdf]
42.
Crown,
Cryptand, and Cavitand Molecules. Munro,
T. A.; Riggs, J. A.; Smith, B.
D., In Macmillan Encyclopedia of Chemistry, Lagowski, J. J., Ed.; Volume 1;
Macmillan Reference USA, Simon &
Schuster Macmillon: New York, 1997; pp 427-431. (b) Ether
Functional Group. Gardiner, S. J.; Smith, B. D., In Macmillan
Encyclopedia
of Chemistry, Lagowski, J.
J., Ed.;
Volume 2; Macmillan Reference USA, Simon & Schuster Macmillon: New
York,
1997; pp 595-598. (not available)
43.
Enhanced
Carboxylate Binding Using Urea and
Amide-Based Receptors with Internal Lewis Acid Coordination: A
Cooperative
Polarization Effect. Hughes, M.
P.; Smith, B. D., J. Org. Chem.,
1997, 62, 4492-4499. [pdf]
44.
Facilitated
Transport of Amino Acids By Fixed-Site
Jumping. Munro, T. A.; Smith, B.
D. J. Chem. Soc. Chem. Commun.,
1997, 2167-2168. [pdf]
45.
Fluorescence
Sensing of a Ribonucleoside
5'-Triphosphate. Patterson, S.;
Smith, B. D.; Taylor, R. E. Tetrahedron Lett., 1997, 6323-6326. [pdf]
46.
Fluorescence
Sensing Due to Allosteric Switching of
Pyrene Functionalized cis-1,3-Cyclohexanedicarboxylate. Monahan, C.; Bien, J. T.; Smith, B. D.
J. Chem. Soc. Chem. Commun.,
1998,
431-432. [pdf]
47.
Membrane
Process for Separating Carbohydrates. Smith,
B. D.; Riggs, J. A.; US Patent,
5,800,624 (1998). (not available)
48.
Facilitated
Transport of Carbohydrates,
Catecholamines, and Amino Acids through Liquid and Plasticized Organic
Membranes. Smith,B. D.; Gardiner,
S. J.; Munro, T. A.; Paugam, M. -F.; Riggs, J. A. J. Mol. Rec.
Incl. Phenom. 1998, 32,
121-131. (not available)
49.
Anion
Recognition Using Boronate-Ureas. Smith,
B. D.; Hughes, M. P. in Molecular
Recognition and Inclusion,
Coleman,
A. W., Ed.; Kluwer: Amsterdam, 1998, 515-518. (not available)
50.
Tuning
the Affinity of a Synthetic Sialic Acid
Receptor Using Combinatorial Chemistry. Patterson, S.; Smith, B. D.;
Taylor, R.
T. Tetrahedron Lett.,
1998,
3111-3114. [pdf]
51.
Heteroditopic
Ruthenium(II) Bipyridyl Receptor with
Adjacent Saccharide and Phosphate Binding Sites. Deetz,
M. J.; Smith, B. D. Tetrahedron Lett., 1998, 6841-6844. [pdf]
52.
Anionic
Saccharides Activate Liposomes Containing
Phospholipids Bearing a Boronic Acid for Ca2+-Dependent
Fusion. Zhang, Z.; Smith, B. D. J.
Am. Chem. Soc., 1998, 129,
7141-7142. [pdf]
53.
Using
Hydrogen Bonding to Control Carbamate C-N
Rotamer Equilibria. Moraczewski, A. L.; Banaszynski, L. A.; From, A.
M.; White,
C. A.; Smith, B. D. J. Org. Chem.,
1998, 63, 7258-7262. [pdf]
54.
Facilitated
Transport of Small Hydrophilic
Biomolecules through Artificial Membranes. Smith,
B. D.; Gardiner, Advances in Supramolecular
Chemistry, Vol. 5, Gokel,
G. W.,
Ed.; JAI Press: Greenwich, 1999, Ch. 4. (not available)
55.
Selective
Fructose Transport Through Supported Liquid
Membranes Containing Diboronic Acid or Conjugated Monoboronic
Acid-Quaternary
Ammonium Carriers. Gardiner, S. J.; Smith, B. D.; Duggan, P. J.; Karpa,
M.;
Griffin, G. J. Tetrahedron, 1999,
55, 2857-2864. [pdf]
56.
Synthesis
and Characterization of NVOC-DOPE, a Caged
Photoactivatable Derivative of Dioleoylphosphatidylethanolamine. Zhang,
Z.;
Smith, B. D. Bioconj. Chem.,
1999, 10. 1150-1152. [pdf]
57.
Facilitated
Phospholipid Translocation Across Vesicle
Membranes Using Low Molecular Weight Synthetic Flippases.
Boon, J. M.; Smith, B. D. J. Am.
Chem. Soc., 1999, 121,
11924-11925. [pdf]
58.
Enhanced
Cell Binding Using Liposomes Containing an
Artificial Carbohydrate-binding Receptor. Vandenburg, Y.; Zhang, Z.; Fishkind, D.
J.; Smith, B. D. Chem.
Commun., 2000,
149-150. [pdf]
59.
Separation
of Fructose from a Mixture of Sugars Using
Supported Liquid
Membranes. Di
Luccio, M.; D. Smith, B. D.; Kida. T.; Borges, C. P.; Alves, T. L. M.
J.
Membr. Sci., 2000, 174,
217-224. (not available)
60.
High-Generation
Polycationic Dendrimers are Unusually
Effective at Disrupting Anionic Liposomal Membranes: Membrane Bending
Model. Zhang,
Z.; Smith, B. D. Bioconj. Chem.,
2000, 11, 805-814. [pdf]
61.
Non-leaky
Vesicle Fusion and Enhanced Cell
Transfection Using a Cationic Facial Amphiphile. Vandenburg, Y. R.;
Smith,
B. D.; PŽrez-Pay‡n, M. N.; Davis, A.
P. J. Am. Chem. Soc.,
2000, 122, 3252-3253. [pdf]
62.
A
Macrobicyclic Receptor with Versatile Recognition
Properties. Simultaneous Binding of an Ion Pair and Selective
Complexation of
Dimethylsulfoxide. Deetz, M. J.; Shang, M.; Smith, B. D. J. Am.
Chem. Soc., 2000, 122,
6201-6207. [pdf]
63.
Calcium(II)
meso-2,3-Diphenylsuccinate Heptahydrate.
Morin, G. T.; Shang, M.; Smith, B. D. Acta Cryst. C, 2000, 56, 544-545. [pdf]
64.
Effect of
Competing Alkali Metal Cations on Neutral
HostÕs Anion Binding Ability. Shukla, R.; Kida, T.; Smith, B.
D. Org. Lett., 2000,
2, 3039-3248. [pdf]
65.
[2]Rotaxane
With a Cation-Binding Wheel, Shukla, R.;
Deetz, M. J.; Smith, B. D. Chem. Commun., 2000, 2397-2398. [pdf]
66.
NMR
Studies of Hydrogen Bonding Interactions with
Secondary Amide and Urea Groups. Deetz, M. J.; Fahey, J. E.; Smith, B.
D. J.
Phys. Org Chem. 2001, 14,
463-467. [pdf]
67.
Boronic
Acid Fluorophore/b-Cyclodextrin Complex
Sensors for Selective Sugar Recognition in Water. Tong, A.; Yamauchi,
A.;
Hayashita, T.; Zhang, Z.; Smith, B. D.; Terame, N. Anal. Chem. 2001, 73, 1530-1536. [pdf]
68.
Inhibited
Phospholipid Translocation Across Interdigitated
Phosphatidylglycerol Vesicle Membranes. Boon, J. M.; McClain, R. L.;
Breen, J.
J.; Smith, B. D. J. Supramol. Chem.
2001, 1, 17-21. (not available)
69.
One-Step
Synthesis of 4(3H)-Quinazolinones.
Deetz, M. J.; Malerich, J. P.;
Beatty, A.; Smith, B. D. Tetrahedron Lett. 2001, 1851-1854. [pdf]
70.
Selective
Recognition of an Alkali Halide Contact
Ion-Pair, Mahoney, J. M.; Beatty, A. M.; Smith, B. D. J. Am. Chem.
Soc. 2001, 123,
5847-5848. [pdf]
71.
Facilitated
Phosphatidylcholine Flip-Flop Across
Erythrocyte Membranes Using Low-Molecular-Weight Synthetic
Translocases. Boon,
J. M.; Smith, B. D. J. Am. Chem. Soc. 2001, 123, 6221-6226. [pdf]
72.
Mechanism
of Facilitated Saccharide Transport Through
Plasticized Cellulose Triacetate Membranes. White, K. M.; Duggan, P.
J.;
Sheahan, S. L.; Tyndall, E. M.;
Smith,
B. D. J. Membr. Sci.,
2001, 194,
165-175. (not available)
73.
Using
Pentafluorophenyl as a Lewis Acid to Stabilize
a Cis Secondary Amide Conformation. Forbes, C. C.; Beatty, A. M.;
Smith, B. D. Org.
Lett. 2001, 3,
3595-3598. [pdf]
74.
Supramolecular
Function of Fluorescent
Probe/Cyclodextrin Complex Sensors in Water. Hayishita, T.; Yamaguchi,
A.;
Kato, A.; Tong, A.; Smith, B. D.; Teramae, N. Bunseki Kagaku, 2001, 50, 355-368. (not available)
75.
Recognition-directed
Assembly of a Salt-Binding
[2]Rotaxane. Shukla, R.; Deetz, M. J.; Smith, B. D. Tetrahedron, 2002, 58, 799-806. [pdf]
76.
Selective
Phosphatidylethanolamine Translocation
Across Vesicle Membranes Using Synthetic Translocases, Boon, J. M.,
Shukla, R.,
Smith, B. D., Licini, G., Scrimin, P. Chem. Comm. 2002, 260-261. [pdf]
77.
Textrev:
A Window into How Students use Textbook
Resources. Smith, B. D. Research Corporation Report, Winter 2002, 3. (not available)
78.
Chemical
Control of Phospholipid Distribution Across
Bilayer Membranes. Boon, M. J.; Smith, B. D. Med. Res. Rev. 2002, 22, 251-281. [pdf]
79.
Templated
Conversion of
Crown-Containing Macrobicycle into [2]Rotaxane. Mahoney, J. M.; Shukla,
R.;
Marshall, R. A.; Zajicek, J.; Beatty, A. M.; Smith, B. D. J. Org.
Chem. 2002, 67, 1436-1440. [pdf]
80.
Structure/Activity
Study of Tris(2-aminoethyl)amine
Derived Translocases for Phosphatidylcholine. Boon, J. M.; Lambert, T.
N.;
Smith, B. D.; Beatty, A. M.; Ugrinova V.; Brown, S. N. J.
Org.
Chem. 2002, 67,
2168-2174. [pdf]
81.
Highly
impermeable vesicles composed of
conformationally restricted phosphatidylethanolamine. Vares, L.;
Koulov, A. V.;
Smith, B. D. Chem. Comm.
2002,
1482-1484. [pdf]
82.
Conformational
Switches: Controlling Carbamate C-N
Rotamer Equilibria. Deetz, M. J.; Jonas, M.; Malerich, J.; Smith, B. D.
Supramol.
Chem. 2002, 14,
487-489. (not available)
83.
Unusually
Low Barrier
to Carbamate C-N Rotation. Deetz, M. J.; Forbes, C. C.; Jonas, M.;
Malerich, J.
P.; Smith, B. D.; Wiest, O. J.
Org. Chem. 2002, 67,
3949-3952. [pdf]
84.
Facilitated
Phospholipid Flip-Flop Using Synthetic
Steroid-Derived Translocases. Lambert, T. N.; Boon, J. M.; Smith, B.
D.;
PŽrez-Pay‡n, M. N.; Davis, A. P. J. Am.
Chem. Soc. 2002, 124,
5276-5277. [pdf]
85.
Cationic
Triple-Chain Amphiphiles Facilitate Vesicle
Fusion Compared to Double-Chain or Single-Chain Analogues. Koulov, A.
V.;
Vares, L.; Smith, B. D. Biochim Biophys. Act 2002, 1564, 459-465.
[pdf]
86.
Membrane
Disruption Ability of Facially Amphiphilic
Helical Peptide. Vandenburg,Y. R.; Smith, B. D.; Biron, E.; Voyer, N. Chem.
Comm. 2002, 1694-1695. [pdf]
87.
Evaluation
of flat sheet and hollow fiber supported
liquid membranes for fructose pertraction from a mixture of sugars. Di
Luccio,
M.; Smith, B. D.; Kida, T.; Alves, T. L. M.; Borges, C. P.; Desalination, 2002, 148, 213-220. [pdf]
88.
Synthetic
Membrane Transporters. Boon, J. M.; Smith,
B. D. Curr. Opin. Chem. Biol.
2002, 6,
749-756. [pdf]