William M. Kulyk

1.7k total citations
29 papers, 1.4k citations indexed

About

William M. Kulyk is a scholar working on Rheumatology, Molecular Biology and Biomaterials. According to data from OpenAlex, William M. Kulyk has authored 29 papers receiving a total of 1.4k indexed citations (citations by other indexed papers that have themselves been cited), including 17 papers in Rheumatology, 13 papers in Molecular Biology and 8 papers in Biomaterials. Recurrent topics in William M. Kulyk's work include Osteoarthritis Treatment and Mechanisms (17 papers), Silk-based biomaterials and applications (8 papers) and Knee injuries and reconstruction techniques (5 papers). William M. Kulyk is often cited by papers focused on Osteoarthritis Treatment and Mechanisms (17 papers), Silk-based biomaterials and applications (8 papers) and Knee injuries and reconstruction techniques (5 papers). William M. Kulyk collaborates with scholars based in Canada, United States and China. William M. Kulyk's co-authors include Robert A. Kosher, Brent E. Bobick, Daniel Chen, Zohreh Izadifar, Barbara Rodgers, Lisa Hoffman, Karen L. Greer, William B. Upholt, David A. Hart and Tuanjie Chang and has published in prestigious journals such as Journal of Biological Chemistry, Development and Developmental Biology.

In The Last Decade

William M. Kulyk

29 papers receiving 1.4k citations

Peers

William M. Kulyk
H.I. Roach United Kingdom
Roger S. Meadows United Kingdom
Tianshun Xu United States
Anthony M. DeLise United States
Holger Notbohm Germany
Chris Kiani Canada
Anna‐Marja Säämänen Finland
Russell J. Fernandes United States
Nan Hatch United States
L.D. Swain United States
H.I. Roach United Kingdom
William M. Kulyk
Citations per year, relative to William M. Kulyk William M. Kulyk (= 1×) peers H.I. Roach

Countries citing papers authored by William M. Kulyk

Since Specialization
Citations

This map shows the geographic impact of William M. Kulyk's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by William M. Kulyk with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites William M. Kulyk more than expected).

Fields of papers citing papers by William M. Kulyk

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by William M. Kulyk. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by William M. Kulyk. The network helps show where William M. Kulyk may publish in the future.

Co-authorship network of co-authors of William M. Kulyk

This figure shows the co-authorship network connecting the top 25 collaborators of William M. Kulyk. A scholar is included among the top collaborators of William M. Kulyk based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with William M. Kulyk. William M. Kulyk is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Kulyk, William M., et al.. (2017). Six2 Plays an Intrinsic Role in Regulating Proliferation of Mesenchymal Cells in the Developing Palate. Frontiers in Physiology. 8. 955–955. 14 indexed citations
2.
Izadifar, Zohreh, Tuanjie Chang, William M. Kulyk, Daniel Chen, & B. Frank Eames. (2015). Analyzing Biological Performance of 3D-Printed, Cell-Impregnated Hybrid Constructs for Cartilage Tissue Engineering. Tissue Engineering Part C Methods. 22(3). 173–188. 103 indexed citations
3.
Little, Christopher J., William M. Kulyk, & Daniel Chen. (2014). The Effect of Chondroitin Sulphate and Hyaluronic Acid on Chondrocytes Cultured within a Fibrin-Alginate Hydrogel. Journal of Functional Biomaterials. 5(3). 197–210. 46 indexed citations
4.
Smith, Tara, Xia Wang, Wei Zhang, William M. Kulyk, & Adil J. Nazarali. (2009). Hoxa2 plays a direct role in murine palate development. Developmental Dynamics. 238(9). 2364–2373. 12 indexed citations
5.
Bobick, Brent E. & William M. Kulyk. (2008). Regulation of cartilage formation and maturation by mitogen‐activated protein kinase signaling. Birth Defects Research Part C Embryo Today Reviews. 84(2). 131–154. 71 indexed citations
6.
Wiens, Richard, Margaret Rak, Suraj Abraham, et al.. (2007). Synchrotron FTIR microspectroscopic analysis of the effects of anti-inflammatory therapeutics on wound healing in laminectomized rats. Analytical and Bioanalytical Chemistry. 387(5). 1679–1689. 23 indexed citations
7.
Bobick, Brent E., et al.. (2006). Fibroblast growth factors 2, 4, and 8 exert both negative and positive effects on limb, frontonasal, and mandibular chondrogenesis via MEK‐ERK activation. Journal of Cellular Physiology. 211(1). 233–243. 45 indexed citations
8.
Bobick, Brent E. & William M. Kulyk. (2006). MEK-ERK signaling plays diverse roles in the regulation of facial chondrogenesis. Experimental Cell Research. 312(7). 1079–1092. 24 indexed citations
9.
Bobick, Brent E. & William M. Kulyk. (2004). The MEK-ERK Signaling Pathway Is a Negative Regulator of Cartilage-specific Gene Expression in Embryonic Limb Mesenchyme. Journal of Biological Chemistry. 279(6). 4588–4595. 53 indexed citations
10.
Wang, Jian Fei, et al.. (2000). Molecular and Cell Biology of Skin Wound Healing in a Pig Model. Connective Tissue Research. 41(3). 195–211. 100 indexed citations
11.
Kulyk, William M., et al.. (2000). Sox9 Expression during Chondrogenesis in Micromass Cultures of Embryonic Limb Mesenchyme. Experimental Cell Research. 255(2). 327–332. 59 indexed citations
12.
Hoffman, Lisa & William M. Kulyk. (1999). Alcohol promotes in vitro chondrogenesis in embryonic facial mesenchyme. The International Journal of Developmental Biology. 43(2). 167–174. 18 indexed citations
13.
Pearson, Derek, William M. Kulyk, Gregory M. Kelly, & P.H. Krone. (1996). Cloning and Characterization of a cDNA Encoding the Collagen-Binding Stress Protein hsp47 in Zebrafish. DNA and Cell Biology. 15(3). 263–272. 42 indexed citations
14.
Kulyk, William M. & Lisa Hoffman. (1996). Ethanol Exposure Stimulates Cartilage Differentiation by Embryonic Limb Mesenchyme Cells. Experimental Cell Research. 223(2). 290–300. 30 indexed citations
15.
Juurlink, B. H. J., Patrick H. Krone, William M. Kulyk, Valerie M. K. Verge, & J. Ronald Doucette. (1995). Neural Cell Specification. 2 indexed citations
16.
Kulyk, William M., Caroline N.D. Coelho, & Robert A. Kosher. (1991). Type IX Collagen Gene Expression During Limb Cartilage Differentiation. Matrix. 11(4). 282–288. 24 indexed citations
17.
Rodgers, Barbara, et al.. (1989). Stimulation of limb cartilage differentiation by cyclic AMP is dependent on cell density. Cell Differentiation and Development. 28(3). 179–187. 25 indexed citations
18.
Kulyk, William M., Barbara Rodgers, Karen L. Greer, & Robert A. Kosher. (1989). Promotion of embryonic chick limb cartilage differentiation by transforming growth factor-β. Developmental Biology. 135(2). 424–430. 151 indexed citations
19.
Kulyk, William M., William B. Upholt, & Robert A. Kosher. (1989). Fibronectin gene expression during limb cartilage differentiation. Development. 106(3). 449–455. 75 indexed citations
20.
Kulyk, William M., et al.. (1987). Hyaluronic acid production and hyaluronidase activity in the newt iris during lens regeneration. Experimental Cell Research. 172(1). 180–191. 18 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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