microprocessor controlled uvb irradiation system Search Results


microprocessor controlled uvb irradiation system  (Vilber Lourmat)
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Vilber Lourmat microprocessor controlled uvb irradiation system
A. Absorption spectra of bare embryo, coated embryo <t>within</t> <t>LnPO</t> 4 shell, and LnPO 4 particles in water (2.4 g/L). B. Hatchability of the bare embryos and the coated ones under different dosage of <t>UVB</t> radiation. (R 1 2 = 0.96; R 2 2 = 0.83). C. Deformity percentage of embryos under different UVB doses in a short-term exposure. (* p<0.05; ** p<0.01 by Student's t-test, mean ± s.d., n = 8).
Microprocessor Controlled Uvb Irradiation System, supplied by Vilber Lourmat, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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A. Absorption spectra of bare embryo, coated embryo within LnPO 4 shell, and LnPO 4 particles in water (2.4 g/L). B. Hatchability of the bare embryos and the coated ones under different dosage of UVB radiation. (R 1 2 = 0.96; R 2 2 = 0.83). C. Deformity percentage of embryos under different UVB doses in a short-term exposure. (* p<0.05; ** p<0.01 by Student's t-test, mean ± s.d., n = 8).

Journal: PLoS ONE

Article Title: Guarding Embryo Development of Zebrafish by Shell Engineering: A Strategy to Shield Life from Ozone Depletion

doi: 10.1371/journal.pone.0009963

Figure Lengend Snippet: A. Absorption spectra of bare embryo, coated embryo within LnPO 4 shell, and LnPO 4 particles in water (2.4 g/L). B. Hatchability of the bare embryos and the coated ones under different dosage of UVB radiation. (R 1 2 = 0.96; R 2 2 = 0.83). C. Deformity percentage of embryos under different UVB doses in a short-term exposure. (* p<0.05; ** p<0.01 by Student's t-test, mean ± s.d., n = 8).

Article Snippet: To confirm the LnPO 4 shells protection of embryonic development, a microprocessor controlled UVB irradiation system, Bio-Sun (Vilber Lourmat, France), is used to simulate the solar UVB emission.

Techniques:

A–E. The development traces of the bare embryo under UVB ray. F–J. The development stages of the coated embryo under UV radiation. A, F. 30%-epiboly stage. B, G. Bud stage. C, H. 14-somite stage. D, E. Interruption of the development. I. High pectoral stage. J. Protruding-mouth stage. Embryonic development within engineering shell under UVB radiation is fulfilled and the man-made shell can be broken by the larva. Scale bar, 500 µm.

Journal: PLoS ONE

Article Title: Guarding Embryo Development of Zebrafish by Shell Engineering: A Strategy to Shield Life from Ozone Depletion

doi: 10.1371/journal.pone.0009963

Figure Lengend Snippet: A–E. The development traces of the bare embryo under UVB ray. F–J. The development stages of the coated embryo under UV radiation. A, F. 30%-epiboly stage. B, G. Bud stage. C, H. 14-somite stage. D, E. Interruption of the development. I. High pectoral stage. J. Protruding-mouth stage. Embryonic development within engineering shell under UVB radiation is fulfilled and the man-made shell can be broken by the larva. Scale bar, 500 µm.

Article Snippet: To confirm the LnPO 4 shells protection of embryonic development, a microprocessor controlled UVB irradiation system, Bio-Sun (Vilber Lourmat, France), is used to simulate the solar UVB emission.

Techniques: