Michael W King
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Explore the profile of Michael W King including associated specialties, affiliations and a list of published articles.
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18
Citations
422
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Recent Articles
1.
King M
Am J Law Med
. 2018 Feb;
43(4):426-467.
PMID: 29452560
Despite the U.S. substantially outspending peer high income nations with almost 18% of GDP dedicated to health care, on any number of statistical measurements from life expectancy to birth rates...
2.
Mescher A, Neff A, King M
Dev Comp Immunol
. 2016 Feb;
66:98-110.
PMID: 26891614
The ability of vertebrates to regenerate amputated appendages is increasingly well-understood at the cellular level. Cells mediating an innate immune response and inflammation in the injured tissues are a prominent...
3.
Waite G, Geib R, King M
Biomed Sci Instrum
. 2014 Nov;
50:1-11.
PMID: 25405397
This paper provides a review on the emerging role of neuropeptides for body systems integration. Neuropeptides are small protein-like substances that are released into the synaptic space and/or the blood,...
4.
Mescher A, Neff A, King M
PLoS One
. 2013 Nov;
8(11):e80477.
PMID: 24278286
Tissue and organ regeneration, unlike development, involves an injury that in postembryonic animals triggers inflammation followed by resolution. How inflammation affects epimorphic regeneration is largely uninvestigated. Here we examine inflammation...
5.
King M, Neff A, Mescher A
Anat Rec (Hoboken)
. 2012 Aug;
295(10):1552-61.
PMID: 22933418
The roles of inflammation and immune cell reactivity triggered by amputation have only recently begun to be addressed in investigations of epimorphic regeneration, although studies of tissue repair in mammals...
6.
Neff A, King M, Mescher A
Dev Dyn
. 2011 Feb;
240(5):979-89.
PMID: 21305648
A central feature of epimorphic regeneration during amphibian limb regeneration is cellular dedifferentiation. Two questions are discussed. First, what is the origin and nature of the soluble factors involved in...
7.
Rao N, Jhamb D, Milner D, Li B, Song F, Wang M, et al.
BMC Biol
. 2009 Dec;
7:83.
PMID: 19948009
Background: Following amputation, urodele salamander limbs reprogram somatic cells to form a blastema that self-organizes into the missing limb parts to restore the structure and function of the limb. To...
8.
Wilson J, Martinez-De Luna R, El Hodiri H, Smith R, King M, Mescher A, et al.
Gene Expr Patterns
. 2009 Nov;
10(1):44-52.
PMID: 19900578
Ddx39, a DEAD-box RNA helicase, is a part of the homeostatic machinery that regulates the switch between cellular proliferation and differentiation. Ddx39 was shown to be differentially regulated in Xenopus...
9.
Malloch E, Perry K, Fukui L, Johnson V, Wever J, Beck C, et al.
Dev Dyn
. 2009 Aug;
238(9):2340-56.
PMID: 19681139
Seven hundred and thirty-four unique genes were recovered from a cDNA library enriched for genes up-regulated during the process of lens regeneration in the frog Xenopus laevis. The sequences represent...
10.
King M, Neff A, Mescher A
Int J Dev Biol
. 2009 Jul;
53(7):955-69.
PMID: 19598114
During amphibian epimorphic limb regeneration, local injury produces metabolic changes that lead to cellular dedifferentiation and formation of a blastema, but few details of these changes have been elucidated. Here...