A citation-based method for searching scientific literature

Henry M Kronenberg. Nature 2003
Times Cited: 1731







List of co-cited articles
619 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Resting zone of the growth plate houses a unique class of skeletal stem cells.
Koji Mizuhashi, Wanida Ono, Yuki Matsushita, Naoko Sakagami, Akira Takahashi, Thomas L Saunders, Takashi Nagasawa, Henry M Kronenberg, Noriaki Ono. Nature 2018
99
19

Hypertrophic chondrocytes can become osteoblasts and osteocytes in endochondral bone formation.
Liu Yang, Kwok Yeung Tsang, Hoi Ching Tang, Danny Chan, Kathryn S E Cheah. Proc Natl Acad Sci U S A 2014
343
17

Chondrocytes transdifferentiate into osteoblasts in endochondral bone during development, postnatal growth and fracture healing in mice.
Xin Zhou, Klaus von der Mark, Stephen Henry, William Norton, Henry Adams, Benoit de Crombrugghe. PLoS Genet 2014
272
14

A subset of chondrogenic cells provides early mesenchymal progenitors in growing bones.
Noriaki Ono, Wanida Ono, Takashi Nagasawa, Henry M Kronenberg. Nat Cell Biol 2014
214
13

A radical switch in clonality reveals a stem cell niche in the epiphyseal growth plate.
Phillip T Newton, Lei Li, Baoyi Zhou, Christoph Schweingruber, Maria Hovorakova, Meng Xie, Xiaoyan Sun, Lakshmi Sandhow, Artem V Artemov, Evgeny Ivashkin,[...]. Nature 2019
50
24

Endochondral ossification: how cartilage is converted into bone in the developing skeleton.
E J Mackie, Y A Ahmed, L Tatarczuch, K-S Chen, M Mirams. Int J Biochem Cell Biol 2008
519
11

Development of the endochondral skeleton.
Fanxin Long, David M Ornitz. Cold Spring Harb Perspect Biol 2013
282
11


Gremlin 1 identifies a skeletal stem cell with bone, cartilage, and reticular stromal potential.
Daniel L Worthley, Michael Churchill, Jocelyn T Compton, Yagnesh Tailor, Meenakshi Rao, Yiling Si, Daniel Levin, Matthew G Schwartz, Aysu Uygur, Yoku Hayakawa,[...]. Cell 2015
350
9


Osteoblast precursors, but not mature osteoblasts, move into developing and fractured bones along with invading blood vessels.
Christa Maes, Tatsuya Kobayashi, Martin K Selig, Sophie Torrekens, Sanford I Roth, Susan Mackem, Geert Carmeliet, Henry M Kronenberg. Dev Cell 2010
519
8

Discovery of a periosteal stem cell mediating intramembranous bone formation.
Shawon Debnath, Alisha R Yallowitz, Jason McCormick, Sarfaraz Lalani, Tuo Zhang, Ren Xu, Na Li, Yifang Liu, Yeon Suk Yang, Mark Eiseman,[...]. Nature 2018
133
8

Identification and specification of the mouse skeletal stem cell.
Charles K F Chan, Eun Young Seo, James Y Chen, David Lo, Adrian McArdle, Rahul Sinha, Ruth Tevlin, Jun Seita, Justin Vincent-Tompkins, Taylor Wearda,[...]. Cell 2015
297
8


Targeted disruption of Cbfa1 results in a complete lack of bone formation owing to maturational arrest of osteoblasts.
T Komori, H Yagi, S Nomura, A Yamaguchi, K Sasaki, K Deguchi, Y Shimizu, R T Bronson, Y H Gao, M Inada,[...]. Cell 1997
8

The novel zinc finger-containing transcription factor osterix is required for osteoblast differentiation and bone formation.
Kazuhisa Nakashima, Xin Zhou, Gary Kunkel, Zhaoping Zhang, Jian Min Deng, Richard R Behringer, Benoit de Crombrugghe. Cell 2002
8

Bone development.
Agnes D Berendsen, Bjorn R Olsen. Bone 2015
188
8


Dual pathways to endochondral osteoblasts: a novel chondrocyte-derived osteoprogenitor cell identified in hypertrophic cartilage.
Jung Park, Matthias Gebhardt, Svitlana Golovchenko, Francesc Perez-Branguli, Takako Hattori, Christine Hartmann, Xin Zhou, Benoit deCrombrugghe, Michael Stock, Holm Schneider,[...]. Biol Open 2015
94
7

Vertebrate skeletogenesis.
Véronique Lefebvre, Pallavi Bhattaram. Curr Top Dev Biol 2010
114
7

Leptin-receptor-expressing mesenchymal stromal cells represent the main source of bone formed by adult bone marrow.
Bo O Zhou, Rui Yue, Malea M Murphy, James G Peyer, Sean J Morrison. Cell Stem Cell 2014
577
7

The role of the resting zone in growth plate chondrogenesis.
Veronica Abad, Jodi L Meyers, Martina Weise, Rachel I Gafni, Kevin M Barnes, Ola Nilsson, John D Bacher, Jeffrey Baron. Endocrinology 2002
173
7


PTH/PTHrP receptor in early development and Indian hedgehog-regulated bone growth.
B Lanske, A C Karaplis, K Lee, A Luz, A Vortkamp, A Pirro, M Karperien, L H Defize, C Ho, R C Mulligan,[...]. Science 1996
952
7

Regulation of rate of cartilage differentiation by Indian hedgehog and PTH-related protein.
A Vortkamp, K Lee, B Lanske, G V Segre, H M Kronenberg, C J Tabin. Science 1996
7

Fracture healing: mechanisms and interventions.
Thomas A Einhorn, Louis C Gerstenfeld. Nat Rev Rheumatol 2015
516
7

MEF2C transcription factor controls chondrocyte hypertrophy and bone development.
Michael A Arnold, Yuri Kim, Michael P Czubryt, Dillon Phan, John McAnally, Xiaoxia Qi, John M Shelton, James A Richardson, Rhonda Bassel-Duby, Eric N Olson. Dev Cell 2007
276
7

Osteogenic fate of hypertrophic chondrocytes.
Guan Yang, Liang Zhu, Ning Hou, Yu Lan, Xi-Mei Wu, Bin Zhou, Yan Teng, Xiao Yang. Cell Res 2014
83
7


Self-renewing osteoprogenitors in bone marrow sinusoids can organize a hematopoietic microenvironment.
Benedetto Sacchetti, Alessia Funari, Stefano Michienzi, Silvia Di Cesare, Stefania Piersanti, Isabella Saggio, Enrico Tagliafico, Stefano Ferrari, Pamela Gehron Robey, Mara Riminucci,[...]. Cell 2007
6

Identification of the Human Skeletal Stem Cell.
Charles K F Chan, Gunsagar S Gulati, Rahul Sinha, Justin Vincent Tompkins, Michael Lopez, Ava C Carter, Ryan C Ransom, Andreas Reinisch, Taylor Wearda, Matthew Murphy,[...]. Cell 2018
186
6

Multiple phases of chondrocyte enlargement underlie differences in skeletal proportions.
Kimberly L Cooper, Seungeun Oh, Yongjin Sung, Ramachandra R Dasari, Marc W Kirschner, Clifford J Tabin. Nature 2013
162
6

Cbfa1, a candidate gene for cleidocranial dysplasia syndrome, is essential for osteoblast differentiation and bone development.
F Otto, A P Thornell, T Crompton, A Denzel, K C Gilmour, I R Rosewell, G W Stamp, R S Beddington, S Mundlos, B R Olsen,[...]. Cell 1997
6

Sox9 directs hypertrophic maturation and blocks osteoblast differentiation of growth plate chondrocytes.
Peter Dy, Weihuan Wang, Pallavi Bhattaram, Qiuqing Wang, Lai Wang, R Tracy Ballock, Véronique Lefebvre. Dev Cell 2012
204
6

The transcription factor Sox9 has essential roles in successive steps of the chondrocyte differentiation pathway and is required for expression of Sox5 and Sox6.
Haruhiko Akiyama, Marie-Christine Chaboissier, James F Martin, Andreas Schedl, Benoit de Crombrugghe. Genes Dev 2002
6


Recapitulating endochondral ossification: a promising route to in vivo bone regeneration.
Emmet M Thompson, Amos Matsiko, Eric Farrell, Daniel J Kelly, Fergal J O'Brien. J Tissue Eng Regen Med 2015
68
7

Roles of Chondrocytes in Endochondral Bone Formation and Fracture Repair.
R J Hinton, Y Jing, J Jing, J Q Feng. J Dent Res 2017
45
11

Gli1 identifies osteogenic progenitors for bone formation and fracture repair.
Yu Shi, Guangxu He, Wen-Chih Lee, Jennifer A McKenzie, Matthew J Silva, Fanxin Long. Nat Commun 2017
87
5

Angiogenesis and intramembranous osteogenesis.
Christopher J Percival, Joan T Richtsmeier. Dev Dyn 2013
96
5


Blood vessel formation and function in bone.
Kishor K Sivaraj, Ralf H Adams. Development 2016
158
5

Primary culture and phenotyping of murine chondrocytes.
Marjolaine Gosset, Francis Berenbaum, Sylvie Thirion, Claire Jacques. Nat Protoc 2008
363
5

Coupling of angiogenesis and osteogenesis by a specific vessel subtype in bone.
Anjali P Kusumbe, Saravana K Ramasamy, Ralf H Adams. Nature 2014
687
5


Sox9 is required for cartilage formation.
W Bi, J M Deng, Z Zhang, R R Behringer, B de Crombrugghe. Nat Genet 1999
5


Growth Plate Chondrocytes: Skeletal Development, Growth and Beyond.
Shawn A Hallett, Wanida Ono, Noriaki Ono. Int J Mol Sci 2019
22
22


Identification and characterization of the novel Col10a1 regulatory mechanism during chondrocyte hypertrophic differentiation.
J Gu, Y Lu, F Li, L Qiao, Q Wang, N Li, J A Borgia, Y Deng, G Lei, Q Zheng. Cell Death Dis 2014
35
11


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.