M V Matz
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Explore the profile of M V Matz including associated specialties, affiliations and a list of published articles.
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20
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1310
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Recent Articles
1.
Kenkel C, Setta S, Matz M
Heredity (Edinb)
. 2015 Jun;
115(6):509-16.
PMID: 26081798
A population's potential for rapid evolutionary adaptation can be estimated from the amount of genetic variation in fitness-related traits. Inshore populations of the mustard hill coral (Porites astreoides) have been...
2.
Davies S, Treml E, Kenkel C, Matz M
Mol Ecol
. 2014 Nov;
24(1):70-82.
PMID: 25407355
Understanding how genetic diversity is maintained across patchy marine environments remains a fundamental problem in marine biology. The Coral Triangle, located in the Indo-West Pacific, is the centre of marine...
3.
Kenkel C, Sheridan C, Leal M, Bhagooli R, Castillo K, Kurata N, et al.
Mol Ecol Resour
. 2013 Dec;
14(4):667-78.
PMID: 24354729
Gene expression biomarkers can enable rapid assessment of physiological conditions in situ, providing a valuable tool for reef managers interested in linking organism physiology with large-scale climatic conditions. Here, we...
4.
Kenkel C, Goodbody-Gringley G, Caillaud D, Davies S, Bartels E, Matz M
Mol Ecol
. 2013 Aug;
22(16):4335-4348.
PMID: 23906315
Studying the mechanisms that enable coral populations to inhabit spatially varying thermal environments can help evaluate how they will respond in time to the effects of global climate change and...
5.
Kenkel C, Meyer E, Matz M
Mol Ecol
. 2013 Aug;
22(16):4322-4334.
PMID: 23899402
Recent evidence suggests that corals can acclimatize or adapt to local stress factors through differential regulation of their gene expression. Profiling gene expression in corals from diverse environments can elucidate...
6.
Meyer E, Aglyamova G, Matz M
Mol Ecol
. 2011 Aug;
20(17):3599-616.
PMID: 21801258
Elevated temperatures resulting from climate change pose a clear threat to reef-building corals; however, the traits that might influence corals' survival and dispersal during climate change remain poorly understood. Global...
7.
Kenkel C, Traylor M, Wiedenmann J, Salih A, Matz M
Proc Biol Sci
. 2011 Jan;
278(1718):2691-7.
PMID: 21270034
Multi-coloured homologues of the green fluorescent protein generate some of the most striking visual phenomena in the ocean. Despite their natural prominence in reef-building corals and widespread use in biotechnology,...
8.
Labas Y, Gurskaya N, Yanushevich Y, Fradkov A, Lukyanov K, Lukyanov S, et al.
Proc Natl Acad Sci U S A
. 2002 Apr;
99(7):4256-61.
PMID: 11929996
The family of proteins homologous to the green fluorescent protein (GFP) from Aequorea victoria exhibits striking diversity of features, including several different types of autocatalytically synthesized chromophores. Here we report...
9.
Gurskaya N, Fradkov A, Terskikh A, Matz M, Labas Y, Martynov V, et al.
FEBS Lett
. 2001 Oct;
507(1):16-20.
PMID: 11682051
We have employed a new approach to generate novel fluorescent proteins (FPs) from red absorbing chromoproteins. An identical single amino acid substitution converted novel chromoproteins from the species Anthozoa (Heteractis...
10.
Yarbrough D, Wachter R, Kallio K, Matz M, Remington S
Proc Natl Acad Sci U S A
. 2001 Feb;
98(2):462-7.
PMID: 11209050
The crystal structure of DsRed, a red fluorescent protein from a corallimorpharian, has been determined at 2.0-A resolution by multiple-wavelength anomalous dispersion and crystallographic refinement. Crystals of the selenomethionine-substituted protein...