A Complete List of Publications
1.
Lee,
S., Li, M. & Pollard, T. D.
Evaluation of the binding of Acanthamoeba profilin to pyrene-labeled actin by
fluorescence enhancement. Anal Biochem
168, 148-55. (1988) [ full text in PDF ].
2.
Li, M., Morzycka-Wroblewska,
E. & Desiderio, S. V. NBP, a protein that
specifically binds an enhancer of immunoglobulin gene rearrangement:
purification and characterization. Genes Dev 3, 1801-13. (1989) [ full text in PDF ].
3.
Vernachio, J., Li, M., Donnenberg, A. D. & Soloski,
M. J. Qa-2 expression in the adult murine thymus. A
unique marker for a mature thymic subset. J Immunol 142, 48-56. (1989) [ full text in PDF ].
4.
Li, M., Jan, Y. N. & Jan, L. Y.
Specification of subunit assembly by the hydrophilic amino-terminal domain of
the Shaker potassium channel. Science 257, 1225-30. (1992) [ full text in PDF ].
5.
6.
Li, M., and Desiderio,
S. Physical characterization of DNA-Binding proteins in crude preparations. Transcription
Factors-A practical approach. (
7.
Li, M., Isacoff,
E., Jan, Y. N. & Jan, L. Y. Assembly of potassium channels. Ann N
Y Acad Sci 707,
51-9. (1993) [ full text in PDF ]
8.
Li, M., Unwin,
N., Stauffer, K. A., Jan, Y. N. & Jan, L. Y. Images of purified Shaker
potassium channels. Curr Biol
4, 110-5. (1994) [ full
text in PDF ].
9.
Xu,
J., Yu, W., Jan, Y. N., Jan, L. Y. & Li,
M. Assembly of voltage-gated potassium channels. Conserved hydrophilic
motifs determine subfamily-specific interactions between the alpha- subunits. J Biol Chem 270, 24761-8.
(1995) [ full text in PDF
].
10.
Li, M., Yu, W., Chen, C. H., Cwirla,
S., Whitehorn, E., Tate, E., Raab,
R., Bremer, M., and Dower, B.. In vitro selection of peptides
acting at a new site of NMDA glutamate receptors. Nat Biotechnol
14, 986-91. (1996) [ full text in PDF ].
11.
Yu, W., Xu, J. & Li, M. NAB domain is essential for the
subunit assembly of both alpha-alpha and alpha-beta complexes of shaker-like
potassium channels. Neuron 16, 441-53. (1996) [ full text in PDF ].
12.
Li, M.
Use of a modified bacteriophage to probe the
interactions between peptides and ion channel receptors in mammalian cells. Nat Biotechnol 15, 559-63. (1997) [ full text in PDF ].
13.
Li, X., Xu, J. & Li, M. The human delta1261 mutation of
the HERG potassium channel results in a truncated protein that contains a
subunit interaction domain and decreases the channel expression. J Biol Chem 272, 705-8.
(1997) [ full text in
PDF ].
14.
Stricker, N. L. Christopherson, K. S., Yi, B. A., Schatz, P. J., Raab, R.
W., Dawes, G., Bassett, D. E., Jr., Bredt, D. S., Li, M. PDZ domain of neuronal nitric oxide
synthase recognizes novel C- terminal peptide
sequences. Nat Biotechnol 15, 336-42. (1997) [ full text in PDF
].
15.
Xu, J. & Li, M. Kvbeta2 inhibits the Kvbeta1-mediated inactivation of K+
channels in transfected mammalian cells. J Biol Chem 272, 11728-35.
(1997) [ full text in
PDF ].
16. Morais Cabral, J. H. Lee, A., Cohen, S. L., Chait,
B. T., Li, M., and Mackinnon, R. Crystal structure and functional
analysis of the HERG potassium channel N terminus: a eukaryotic PAS domain. Cell
95, 649-55. (1998) [ full
text in PDF ].
17.
Tu, J. C., Xiao, B., Yuan, J. P., Lanahan,
A. A., Leoffert, K., Li, M., Linden, D. J. and Worley, P. F. Homer binds a novel proline-rich motif and links group 1 metabotropic
glutamate receptors with IP3 receptors. Neuron 21, 717-26. (1998) [ full text in PDF ].
18. van Huizen,
R. Miller, K., Chen, D. M., Li, Y.,
Lai, Z. C., Raab, R. W., Stark, W. S., Shortridge, R. D., and Li,
M. Two distantly positioned PDZ domains mediate multivalent INAD- phospholipase C interactions essential for G
protein-coupled signaling. Embo J
17, 2285-97. (1998) [ full text in PDF ].
19.
Xu, J. & Li, M. Methods used to study subunit assembly of potassium
channels. Methods Enzymol 293, 3-17 (1998) [ full text in PDF ]
20.
Wang, S., Raab,
R. W., Schatz, P. J., Guggino, W. B. & Li, M. Peptide binding consensus of the
NHE-RF-PDZ1 domain matches the C- terminal sequence of cystic fibrosis transmembrane conductance regulator (CFTR)
21.
Xu, J., Yu, W., Wright, J. M., Raab, R. W. & Li,
M. Distinct functional stoichiometry of potassium
channel beta subunits. Proc Natl Acad Sci U S A
95, 1846-51. (1998) [ full
text in PDF ].
22.
Xu, J. &. Li, M. Auxiliary subunits of Shaker-type potassium channels. Trends
in Cardiovascular Medicine 8, 229-234 (1998) [ full text in PDF ].
23. Gong, J., Xu, J., Bezanilla, M., van
Huizen, R., Derin, R.,
& Li, M. Differential
stimulation of PKC phosphorylation of potassium channels by ZIP1 and ZIP2. Science
285, 1565-9. (1999) [ full text in PDF ].
24.
Jo, K., Derin,
R., Li, M. & Bredt,
D. S. Characterization of MALS/Velis-1, -2, and -3: a family of mammalian LIN-
7 homologs enriched at brain synapses in association
with the postsynaptic density-95/NMDA receptor postsynaptic complex. J Neurosci 19, 4189-99. (1999) [ full text in PDF ].
25.
Stricker, N. L., Schatz, P. & Li, M. Using the Lac repressor system
to identify interacting proteins. Methods Enzymol
303, 451-68 (1999) [ full text in PDF ].
26. Moyer, B. D.,
27.
van Huizen,
R., Czajkowsky, D. M., Shi, D., Shao, Z. & Li, M. Images of oligomeric
Kv beta 2, a modulatory
subunit of potassium channels. FEBS Lett 457,
107-11. (1999) [ full
text in PDF ].
28.
Cwirla, S., Dower, W. and Li, M. In vitro selection of peptides
acting on NMDA receptors. Methods in
Molecular Biology, NMDA Receptor
Protocols (Humana Press), 128,
131-141 (1999) [ full
text in PDF ].
29.
Whitehorn, E., Dower, W. and Li. M. Expression of extracellular N-terminal domain of NMDA receptor in
mammalian cells. Methods in Molecular
Biology. NMDA Receptor Protocols (Humana
Press)
30.
Li, M. &
Adelman, J. P. ChIPping
away at potassium channel regulation. Nat Neurosci 3,
202-4. (2000) [ full
text in PDF ].
31.
Li, M. Applications
of display technology in protein analysis. Nat Biotechnol
18, 1251-6. (2000) [ full text in PDF ].
32.
Moyer, B. D. Duhaime, M., Shaw, C., Denton, J., Reynolds, D., Karlson, K. H., Pfeiffer, J., Wang, S., Mickle,
J. E., Milewski, M., Cutting, G. R., Guggino, W. B., Li,
M. & Stanton, B. A. The PDZ-interacting domain of cystic fibrosis transmembrane
conductance regulator is required for functional expression in the apical
plasma membrane. J Biol Chem 275,
27069-74. (2000) [ full
text in PDF ].
33.
Tang, Y. Tang, J., Chen, Z., Trost,
C., Flockerzi, V., Li, M., Ramesh, V., & Zhu, M. X. Association of mammalian trp4 and phospholipase C isozymes with a
PDZ domain-containing protein, NHERF. J Biol Chem 275, 37559-64. (2000) [ full text in PDF ].
34.
Stricker, N. L., & Li, M. Phage Display Technologies, Encyclopedia
of Life Sciences (nature publishing group) (2000) [ full
text in PDF ].
35.
Wang, S., Yue,
H., Derin, R. B., Guggino,
W. B. & Li, M. Accessory protein
facilitated CFTR-CFTR interaction, a molecular mechanism to potentiate the chloride
channel activity. Cell 103, 169-79. (2000) [ full text in PDF ].
36.
Wang, S. & Li,
M. Molecular studies of CFTR
interacting proteins. Pflugers Arch 443, 62-4. (2001) [
full text in PDF ]
37.
Wang, S., Yue,
Y., Derin, R., Guggino, W.,
and Li, M. Regulation of CFTR
activity via protein-protein interactions. Pediatric Pulmonology
22, 87 (2001) [ full text in PDF ].
38.
Ma, D. & Li, M. Applications of display technologies to proteomic analyses. J
Cell Biochem 37, 34-41. (2001) [ full text in PDF ]
39.
Worley, J. & Li, M. Location is key - recent
progress in single-cell-based high-throughput assays. Drug Discov
Today 6, 454. (2001) [ full text in PDF ].
40.
Xu, J., Wang, X., Ensign, B., Li, M., Wu, L., Guia
A., and Xu, J. Ion-channel assay technologies: quo vadis?
Drug
Discovery Today 6, 1278-1287
(2001) [ full text in PDF ]
41.
Cheng, J., Moyer, B. D., Milewski,
M., Loffing, J., Ikeda, M., Mickle,
J. E., Cutting, G. R., Li, M.,
Stanton, B. A., & Guggino, W. B.. A GOLGI associated PDZ domain
protein modulates cystic fibrosis transmembrane
regulator plasma membrane expression. J Biol Chem 277, 3520-3529 (2002) [ full text in PDF ].
42.
43.
Chen, Y., Derin,
R., Petralia, R.S. & Li, M. Actinfilin
– A brain-specific kelch
actin-binding protein in postsynaptic density. J.
Biol. Chem 277, 30495-30501. (2002)
[ full text in PDF ].
44.
45.
Shikano,
S. & Li, M. Membrane receptor
trafficking: Evidence of proximal and distal zones conferred by two independent
endoplasmic reticulum localization signals. Proc. Natl. Acad. Sci. USA. 100,
5783-5788 (2003) (Full text in PDF)
46.
Wang, X. & Li, M. Automated electrophysiology: high throughput
of art. Assays and Drug
Development Technologies 1:695-708 (2003) (Full text in PDF)
47.
Sun,
H., Shikano, S., Xiong, Q, Li,
M. Function
recovery after chemobleaching (FRAC): Evidence for
activity silent membrane receptors on cell surface. Proc. Natl. Acad. Sci. USA 101, 16964-69 (2004) (Full text in PDF)
48.
Xu,
J, Chen, Y, Li,
M. High throughput technologies for studying
potassium channels – progresses and challenges. Targets, 3, 32-38
(2004) (Full text in PDF)
49.
50.
Chen,
Y. & Li, M.
Interactions between
CAP70 and actinfilin are important for integrity of actin cytoskeleton structures in neurons. Neuropharmacology 49, 1026-1041 (2005) (Full text in PDF)
51.
Li, M. High Throughput compound
screening and discovery in academic setting. Retina 25: 58-59 (2005) (Full text in PDF)
52.
Shikano,
S. Coblitz, B., Sun, H. & Li,
M. Genetic
selection of trafficking signals that direct cell surface expression. Nature
Cell Biol. 7, 985-992 (2005) (Full text
in PDF)
53.
Coblitz,
B., Shikano, S., Wu, M., Gabelli, S.B., Cockrell,
L.M., Spieker, M., Hanyu, Y., Fu, H., Amzel, L.M., and Li, M. C-terminal recognition by 14-3-3
proteins for surface expression of membrane proteins. J. Biol. Chem. 280, 36263-36272
(2005). (Full text in PDF)
54.
Wu,
M., Coblitz, B., Shikano, S., Cockrell, L.M., Fu, H., and Li, M. SWTY – A general peptide probe
for homogeneous solution binding assay of 14-3-3 proteins. Anal Biochem.
349, 186-196 (2006)
(Full text in PDF)
55.
Coblitz,
B., Wu, M., Shikano, S., and Li,
M. C-terminal binding:
An expanded repertoire and function of 14-3-3 proteins.
FEBS Letters. 580, 1531-1535 (2006). (Full text in PDF)
56. Sun, H., Liu, X., Shikano, S, and Li, M. Chronic inhibition of cardiac Kir2.1 and hERG potassium channels by celastrol with dual effects on both ion conductivity and protein trafficking. J. Biol. Chem. 281, 5877-5884 (2006) (featured as a cover story and “Paper of the Week”) (Full text in PDF)
57. Shikano, S. Coblitz, B., Wu, M. & Li, M. 14-3-3 proteins: regulation of endoplasmic reticulum localization and surface expression of membrane proteins. Trends in Cell Biol 16, 370-375 (2006)(Full text in PDF)
58. Wu, M., Coblitz, B., Shikano, S., Long, S., Spieker, M., Frutos, A. G., Mukhopadhyay, S., and Li, M. (2006). Phospho-specific recognition by 14-3-3 proteins and antibodies monitored by a high throughput label-free optical biosensor. FEBS Lett 580, 5681-5689 (2006) (Full text in PDF)
59. Salinas, G.D., Blair, L.A., Needleman, L.A., Gonzales, J.D., Chen, Y., Li, M., Singer, J.D. and Marshall, J. Actinfilin is a CUL3 substrate adaptor, linking GluR6 kainate receptor subunits to the ubiquitin-proteasome pathway. J Biol Chem. 280, 40164-73 (2006) (Full text in PDF)
60. Ma, D., Nakata, T., Zhang, G., Hoshi, T., Li, M., and Shikano, S. Differential trafficking of carboxyl isoforms of Ca(2+)-gated (Slo1) potassium channels. FEBS Letters. 581, 1000-1008 (2007) (Full text in PDF)
61. Rong, J., Li, S., Sheng, G., Wu, M., Coblitz, B., Li, M., Fu, H., and Li, X. J. 14-3-3 protein interacts with Huntingtin-associated protein 1 and regulates its trafficking. J Biol Chem 282, 4748-4756 (2007). (Full text in PDF)
62. Xiong, Q., Sun, H., and Li, M., Zinc pyrithione-mediated activation of voltage-gated KCNQ potassium channels rescues epileptogenic mutants. Nature Chemical Biol. 3, 287-296 (2007). (Full text in PDF)
63. Li, J., et al., Spatiotemporal Coupling of cAMP Transporter to CFTR Chloride Channel Function in the Gut Epithelia. Cell 131, 940-51 (2008). (Full text in PDF)
64. Xiong, Q., Gao, Z., Wang, W. and Li, M., Activation of Kv7 (KCNQ) potassium channels by chemical openers. Trends Pharmacol Sci 29, 99-107 (2008). (Full text in PDF)
65. Xiong, Q., Sun, H., Nan, F. and Li, M., Combinatorial Activation of KCNQ potassium channels by synthetic chemical ligands. . Proc. Natl. Acad. Sci. USA 105, 3128-3133 (2008). (Full text in PDF)