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Melatonin reduces two-cell block via nonreceptor pathway in mice.

Journal of cellular biochemistry
November 1, 2018
Feifei Shi et al. (5 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal Study
Extracted Claims (24)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin supplementation
increase
blastocyst formation rate
porcine embryos
from 30.2% to 41.8%
significantly increased
#1
melatonin supplementation
increase
total cell number per blastocyst
porcine embryos
from 48.6 to 58.3
significantly increased
#2
melatonin supplementation
decrease
apoptosis index
porcine embryos
from 6.8% to 4.1%
significantly decreased
#3
melatonin supplementation
increase
mitochondrial membrane potential
porcine embryos
-
significantly increased
#4
melatonin supplementation
increase
ATP content
porcine embryos
-
significantly increased
#5
melatonin supplementation
decrease
reactive oxygen species levels
porcine embryos
-
significantly decreased
#6
melatonin supplementation
increase
glutathione levels
porcine embryos
-
significantly increased
#7
melatonin supplementation
increase
expression of antioxidant genes
porcine embryos
-
significantly increased
#8
melatonin supplementation
increase
expression of anti-apoptotic genes
porcine embryos
-
significantly increased
#9
melatonin supplementation
decrease
expression of pro-apoptotic genes
porcine embryos
-
significantly decreased
#10
melatonin supplementation
increase
expression of genes related to mitochondrial biogenesis
porcine embryos
-
significantly increased
#11
melatonin supplementation
increase
expression of genes related to mitochondrial dynamics
porcine embryos
-
significantly increased
#12
melatonin supplementation
increase
expression of genes related to mitochondrial function
porcine embryos
-
significantly increased
#13
melatonin supplementation
increase
expression of genes related to mitochondrial quality control
porcine embryos
-
significantly increased
#14
melatonin supplementation
increase
expression of genes related to mitochondrial fusion
porcine embryos
-
significantly increased
#15
melatonin supplementation
decrease
expression of genes related to mitochondrial fission
porcine embryos
-
significantly decreased
#16
melatonin supplementation
increase
expression of genes related to mitochondrial autophagy
porcine embryos
-
significantly increased
#17
melatonin supplementation
increase
expression of genes related to mitochondrial biogenesis
porcine embryos
-
significantly increased
#18
melatonin supplementation
increase
expression of genes related to mitochondrial dynamics
porcine embryos
-
significantly increased
#19
melatonin supplementation
increase
expression of genes related to mitochondrial function
porcine embryos
-
significantly increased
#20
melatonin supplementation
increase
expression of genes related to mitochondrial quality control
porcine embryos
-
significantly increased
#21
melatonin supplementation
increase
expression of genes related to mitochondrial fusion
porcine embryos
-
significantly increased
#22
melatonin supplementation
decrease
expression of genes related to mitochondrial fission
porcine embryos
-
significantly decreased
#23
melatonin supplementation
increase
expression of genes related to mitochondrial autophagy
porcine embryos
-
significantly increased
#24
Abstract

Embryo development block seriously limits the success of in vitro embryo production and assisted reproductive technology. Although numerous researchers have explored this problem, it remains to be solved. In this study, we found that melatonin supplementation at 10

Medical Subject Headings (MeSH)
AnimalsAntioxidantsFemaleGlutathione PeroxidaseMatrix Metalloproteinase 14Matrix Metalloproteinase 15MelatoninMiceSuperoxide DismutaseTryptamines
Study Links
PubMed ID30074260
Related Supplements
Melatonin reduces two-cell block via nonreceptor pathway in ... | Panacea Index