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Journal Articles and Book Chapters |
Anatomy in a New Curriculum: Facilitating the Learning of Gross Anatomy Using Web
Access Streaming Dissection Videos. DiLullo, C., P. Coughlin, M. D'Angelo, M.
McGuinness, J. Bandle, E.M. Slotkin, S.A. Shainker, C. Wenger, S.J. Berray. 2006.
J. of Vis. Com. in Med. 29(3):99-108.
A Novel Way to Engage Medical Students in Learning Gross Anatomy at the
Philadelphia College of Osteopathic Medicine. DiLullo, C. 2006. Med. Teach.
28(7):665-666.
Cytoskeletal Components of an Invasion Machine - the Apical Complex of Toxoplasma
gondii. Hu, K., J. Johnson, L. Florens , M. Fraunholz, S. Suravajjala, C. DiLullo, J.
Yates, D. S. Roos, and J. M. Murray. 2006. PloS Pathogens. PLoS Pathog 2(2):
e13.
Preparation of Chick Striated Muscle Cultures. DiLullo, C., J. Gerhart and M.
George-Weinstein. 1999. Methods in Molecular Biology 137, Developmental Biology
Protocols Vol. 3, 337-349.
A Novel Periodic Localization for α1 Integrin in Skeletal Muscle. DiLullo, C., A.S.
Menko, N.J. Philp, P. Mattioli, P. Gilhool, C. McGinley and D. Boettiger. 1998. Basic Appl.
Myol. 8 (4): 325-340.
Myogenic and Chondrogenic Cells. Boettiger, D. and C. DiLullo. 1995. Methods in
Enzymology. 254, 98-113.
Expression of a Developmentally Conserved Myogenic Differentiation Program:
Emergence of Striated Myofibrils in 24 Hour Old Postmitotic, Mononucleated
Myoblasts. Lin, Z., M.-H. Lu, T. Schultheiss, J. Choi, S. Holtzer, C. DiLullo, D. A.
Fischman and H. Holtzer. 1993. Cell Motil. Cytoskeleton. 29, 1-19.
The Vinculin/Sarcomeric-α-Actinin/α-Actin Nexus in Cultured Cardiac Myocytes. Lu, M.,
C. DiLullo, T. Schultheiss, S. Holtzer, J. M. Murray, J. Choi, D. A. Fischman, and H.
Holtzer. 1992. J. Cell Biol. 117: 1007-1022.
A Sarcomeric α-Actinin Truncated at the Carboxyl End Induces the Breakdown of
Stress Fibers in PTK2 Cells and the Formation of Nemaline Bodies and Breakdown
of Myofibrils in Myotubes. Schultheiss, T., J. Choi, Z. X. Lin, C. DiLullo, L.
Cohen-Gould, D. Fischman, and H. Holtzer. 1992. Proc. Nat. Acad. Sci. U.S.A.
89:9282-9286.
Rapid Degradation of Newly Synthesized Tubulin in Lithium Treated Sensory Neurons. J.
Neurochem. Bennett, G.S., B. A. Hollander, D. Laskowska, and C. DiLullo. 1991.
57:130-139.
Lithium Chloride Inhibits the Phosphorylation of Newly Synthesized Neurofilament
Protein, NF-M, in Cultured Chick Sensory Neurons. Bennett, G.S., D. Laskowska
and C. DiLullo. 1991. J. Neurochem. 57:120-129.
Striated Myoblasts and Multinucleated Myotubes Induced in Non-Muscle Cells by Myo
D are Similar to Normal In Vivo Counterparts. Holtzer, H., C. DiLullo, M. L.
Costa, M. Lu, J. Choi, C.M. Mermelstein, T. Schultheiss, and S. Holtzer. 1990. In
Frontiers in Muscle Research. E. Ozawa, T. Masaki and Y. Nabeshima, eds.
Elsevier Science Publishers B.V.
Autonomous expression of the Differentiation Programs of Cells in the Cardiac and
Skeletal Myogenic Lineages. Holtzer, H., T. Schultheiss, C. DiLullo, J. Choi, M.
Costa, M. Lu, and S. Holtzer. 1990. Ann. N.Y. Acad. Sci., Cell Lineages in
Development 599:158-168.
Confocal Microscopy: An Overview. Shuman, H., J. Murray, and C. DiLullo. 1989.
Biotechniques Vol.7, No. 2:154-163.
Expression of a Neurofilament Protein by the Precursors of a Subpopulation of Ventral
Spinal Cord Neurons. Bennett, G.S. and C. DiLullo. 1985. Dev. Biol. 107:94-106.
Transient Expression of a Neurofilament Protein by Replicating Neuroepithelial Cells of
the Embryonic Chick Brain. Bennett, G.S. and C. DiLullo. 1985. Dev. Biol. 107:107-127.
Slow Posttranslational Modification of a Neurofilament Protein. Bennett, G.S. and C.
DiLullo. 1985. J. Cell Biol. 100:1799-1804.
Differential Binding of Antibodies Against the Neurofilament Triplet Proteins in Avian
Neurons. Bennett, G.S., S. J. Tapscott, C. DiLullo and Holtzer, H. 1984. Brain Res.
304:291-302.
Human Gross Anatomy Dissection Video Clips. Copyright, 2004. 37 Video Clips.
DiLullo, C. - Producer, Director, Writer, Editor, Graphic Artist
Coughlin, P. - Writer, Editor
D'Angelo, M. - Writer, Editor
McGuinness, M. - Writer, Editor
Micromodern Exhibition: Limn Gallery- San Francisco, 2003
Sponsored by Chroma Technology
1) Tryptych I:
The repeating motif is a group of myofibrils from chick embryonic skeletal muscle that were immunofluorescently labeled with an antibody against alpha actinin. The original micrograph was digitally acquired using a fluorescence microscope. The motif was cut from the micrograph and manipulated in Adobe Photoshop to create the final image.
2) Efflorescence:
The repeating motif is a single cell of the human parasite Toxoplasma gondii. The parasite was immunogold labeled with an antibody against tubulin. The motif is from an electron micrograph that was digitally scanned and subsequently manipulated in Adobe Photoshop to create the final image.
3) Whorl:
The repeating motif is a single cell from the human parasite Toxoplasma gondii. The parasite was immunogold labeled with an antibody against tubulin. The motif is from an electron micrograph that was digitally scanned and subsequently manipulated in Adobe Photoshop to create the final image.
