Alpha 2.0
Login Register
» Authors » W H Klein

W H Klein

Explore the profile of W H Klein including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 100
Citations 2988
Followers 0
Related Specialties
Biology
Reproductive Medicine
Biochemistry
Top 10 Co-Authors
L Gan
E N Olson
E H Davidson
R J Britten
A H Wikramanayake
B P Brandhorst
X Li
L M Angerer
A M Bruskin
J L Vivian
Published In
Dev Biol
Plant Physiol
Development
Proc Natl Acad Sci U S A
Cell
Affiliations
Soon will be listed here.
Recent Articles
1.
Red-light effect on tracer distribution in etiolated leaf tissue
Mitrakos K, Price L, Klein W, Steiner A
Planta . 2014 Feb; 76(2):190-6. PMID: 24549427
A survey of the distribution of tracer in preparations from etiolated corn leaf sections which had been fed with uniformly labeled glucose (glucose-U-C(14)) and then exposed to ten minutes of...
2.
Evidence for phytochrome involvement in light-mediated stomatal movement in Phaseolus vulgaris L
Holmes M, Klein W
Planta . 2013 Nov; 166(3):348-53. PMID: 24241517
Observations made with primary leaves of Phaseolus vulgaris L. demonstrated that phytochrome modulates light-induced stomatal movement. Removal of the far-red-absorbing form of the pigment (Pfr) with far-red (FR) radiation decreased...
3.
Sensitivity to far-red radiation in stomata of Phaseolus vulgaris L.: Rhythmic effects on conductance and photosynthesis
Holmes M, Sager J, Klein W
Planta . 2013 Nov; 168(4):516-22. PMID: 24232328
The influence of far-red (FR; 700-800 nm) radiation on steady-state stomatal conductance and net photosynthesis in P. vulgaris has been studied. Whereas FR radiation alone was relatively ineffective, addition of...
4.
Radiometer to monitor low levels of ultraviolet irradiance
Goldberg B, Klein W
Appl Opt . 2010 Feb; 13(3):493-6. PMID: 20126014
A scanning radiometer, using eight interference filters, has been developed at the Smithsonian Radiation Biology Laboratory for monitoring the spectral distribution of daylight. The unit has been designed to perform...
5.
A genomic view of the sea urchin nervous system
Burke R, Angerer L, Elphick M, Humphrey G, Yaguchi S, Kiyama T, et al.
Dev Biol . 2006 Sep; 300(1):434-60. PMID: 16965768
The sequencing of the Strongylocentrotus purpuratus genome provides a unique opportunity to investigate the function and evolution of neural genes. The neurobiology of sea urchins is of particular interest because...
6.
Gene expression in the developing mouse retina by EST sequencing and microarray analysis
Mu X, Zhao S, Pershad R, Hsieh T, Scarpa A, Wang S, et al.
Nucleic Acids Res . 2002 Jan; 29(24):4983-93. PMID: 11812828
Retinal development occurs in mice between embryonic day E11.5 and post-natal day P8 as uncommitted neuroblasts assume retinal cell fates. The genetic pathways regulating retinal development are being identified but...
7.
Sea urchin goosecoid function links fate specification along the animal-vegetal and oral-aboral embryonic axes
Angerer L, Oleksyn D, Levine A, Li X, Klein W, Angerer R
Development . 2001 Nov; 128(22):4393-404. PMID: 11714666
We have identified a single homolog of goosecoid, SpGsc, that regulates cell fates along both the animal-vegetal and oral-aboral axes of sea urchin embryos. SpGsc mRNA is expressed briefly in...
8.
Similar myogenic functions for myogenin and MRF4 but not MyoD in differentiated murine embryonic stem cells
Sumariwalla V, Klein W
Genesis . 2001 Sep; 30(4):239-49. PMID: 11536430
The emergence of four genes encoding myogenic bHLH transcription factors in the stem vertebrate is a unique feature of vertebrate evolution that led to the acquisition of new target genes...
9.
Correct Expression of spec2a in the sea urchin embryo requires both Otx and other cis-regulatory elements
Yuh C, Li X, Davidson E, Klein W
Dev Biol . 2001 Jun; 232(2):424-38. PMID: 11401403
Strongylocentrotus purpuratus Otx (SpOtx) is required simultaneously in sea urchin development for the activation of endo16 in the vegetal plate and for the activation of spec2a in the aboral ectoderm....
10.
MyoD cannot compensate for the absence of myogenin during skeletal muscle differentiation in murine embryonic stem cells
Myer A, Olson E, Klein W
Dev Biol . 2001 Feb; 229(2):340-50. PMID: 11203698
myogenin (-/-) mice display severe skeletal muscle defects despite expressing normal levels of MyoD. The failure of MyoD to compensate for myogenin could be explained by distinctions in protein function...