Developmental Ability of CD-1 Strain Mouse Embryos In Vitro and In Vivo with the Different Glucose Phosphate Isomerase Patterns.

Yoko KATO; Miho TANIMURA; Yukio TSUNODA

doi:10.1262/jrd.43.205

Expression of glucose-phosphate isomerase in relation to growth of the mouse oocyte in vivo and in vitro

Gamete Research ◽

10.1002/mrd.1120110306 ◽

1985 ◽

Vol 11 (3) ◽

pp. 271-281 ◽

Cited By ~ 10

Author(s):

Mia Buehr ◽

Anne McLaren

Keyword(s):

Mouse Oocyte ◽

Glucose Phosphate Isomerase ◽

Glucose Phosphate

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A model study of the fructose diphosphatase–phosphofructokinase substrate cycle

Biochemical Journal ◽

10.1042/bj1340581 ◽

1973 ◽

Vol 134 (2) ◽

pp. 581-586 ◽

Cited By ~ 34

Author(s):

David P. Bloxham ◽

Michael G. Clark ◽

Paul C. Holland ◽

Henry A. Lardy

Keyword(s):

Triose Phosphate Isomerase ◽

Theoretical Treatment ◽

Glucose Phosphate Isomerase ◽

Triose Phosphate ◽

Glucose Phosphate ◽

Model Study

A fructose diphosphatase–phosphofructokinase substrate cycle has been reconstructed in vitro to provide a system that recycles fructose 6-phosphate and hydrolyses ATP to ADP and Pi. The concerted actions of glucose phosphate isomerase, phosphofructokinase, aldolase and triose phosphate isomerase catalysed the loss of 3H from [5-3H,U-14C]glucose 6-phosphate. This was used as the basis of a method for the estimation of the fructose diphosphatase–phosphofructokinase substrate cycle. For the reconstructed cycle, the rate of decrease of the 3H/14C ratio in [5-3H,U-14C]hexose 6-phosphate was proportional to the rate of fructose 6-phosphate substrate cycling. A detailed theoretical treatment of this relationship is developed, which enables the rate of substrate cycling to be determined in vivo.

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Expression of paternal glucose phosphate isomerase-1 (Gpi-1) in preimplantation stages of mouse embryos

Developmental Biology ◽

10.1016/0012-1606(71)90114-x ◽

1971 ◽

Vol 26 (1) ◽

pp. 153-158 ◽

Cited By ~ 79

Author(s):

V.M. Chapman ◽

W.K. Whitten ◽

F.H. Ruddle

Keyword(s):

Mouse Embryos ◽

Glucose Phosphate Isomerase ◽

Glucose Phosphate

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Lethality of a tritiated amino acid in early mouse embryos

Development ◽

10.1242/dev.88.1.209 ◽

1985 ◽

Vol 88 (1) ◽

pp. 209-217

Author(s):

Janet L. Wiebold ◽

Gary B. Anderson

Keyword(s):

Specific Activity ◽

Subsequent Development ◽

Blastocyst Stage ◽

Mouse Embryos ◽

Radiation Induced ◽

Specific Activities ◽

Tritiated Amino Acids ◽

Early Mouse

2- to 4-cell and morula- to blastocyst-stage mouse embryos were cultured for 1 h in tritiated leucine at two specific activities and their subsequent development followed in vitro and in vivo (after transfer to recipients), respectively. 2- to 4-cell embryos that incorporated an average of 42 d.p.m. per embryo were impaired in their ability to develop to the morula and blastocyst stage. Recipients receiving morulae and blastocysts that had incorporated an average of 384 d.p.m. per embryo failed to produce young. Reduction of the specific activity improved the viability of embryos both in vitro and in vivo but development was still less than that of unlabelled embryos. Protein degradation curves were different for both 2- to 4-cell and morulato blastocyst-stage embryos labelled at the two different specific activities. Most studies using tritiated amino acids have employed higher specific activities than those used here and they may have to be reevaluated due to the possibility of radiation-induced artifacts.

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Neural tube development in mutant (curly tail) and normal mouse embryos: the timing of posterior neuropore closure in vivo and in vitro

Development ◽

10.1242/dev.69.1.151 ◽

1982 ◽

Vol 69 (1) ◽

pp. 151-167

Author(s):

A. J. Copp ◽

M. J. Seller ◽

P. E. Polani

Keyword(s):

Neural Tube ◽

Neural Tube Defects ◽

Mouse Embryos ◽

Injection Technique ◽

Posterior Neuropore ◽

Curly Tail ◽

Mechanisms Of Development ◽

Delayed Closure

A dye-injection technique has been used to determine the developmental stage at which posterior neuropore (PNP) closure occurs in normal and mutant curly tail mouse embryos. In vivo, the majority of non-mutant embryos undergo PNP closure between 30 and 34 somites whereas approximately 50% of all mutant embryos show delayed closure, and around 20% maintain an open PNP even at advanced stages of development. A similar result has been found for embryos developing in vitro from the headfold stage. Later in development, 50–60% of mutant embryos in vivo develop tail flexion defects, and 15–20% lumbosacral myeloschisis. This supports the view that delayed PNP closure is the main developmental lesion leading to the appearance of caudal neural tube defects in curly tail mice. The neural tube is closed in the region of tail flexion defects, but it is locally overexpanded and abnormal in position. The significance of these observations is discussed in relation to possible mechanisms of development of lumbosacral and caudal neural tube defects. This paper constitutes the first demonstration of the development of a genetically induced malformation in vitro.

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Investigation of the determinative state of the mouse inner cell mass

Development ◽

10.1242/dev.33.4.979 ◽

1975 ◽

Vol 33 (4) ◽

pp. 979-990

Author(s):

J. Rossant

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

In Utero ◽

Glucose Phosphate Isomerase ◽

Trophoblast Cells ◽

Electrophoretic Variants ◽

Glucose Phosphate

Inner cell masses (ICMs) were dissected from 3½- and 4½-day blastocysts and cultured in contact with 2½-day morulae. Blastocysts and morulae were homozygous for different electrophoretic variants of the enzyme glucose phosphate isomerase (GPI). Aggregation of ICMs and morulae was observed, and such aggregates were able to form blastocysts in vitro and morphologically normal foetuses in utero. GPI analysis of these conceptuses revealed that most were chimaeric. However, donor ICM-type isozyme was only detected in the embryonic and extra-embryonic fractions of the chimaeras and never in the trophoblastic fraction. Thus, ICM cells appear unable to form trophoblast derivatives even when exposed to ‘outside’ conditions as experienced by developing trophoblast cells. This is evidence that ICM cells, although not overtly differentiated, are determined by 3½ days.

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Localization of cytoskeletal proteins in preimplantation mouse embryos

Development ◽

10.1242/dev.55.1.211 ◽

1980 ◽

Vol 55 (1) ◽

pp. 211-225

Author(s):

E. Lehtonen ◽

R. A. Badley

Keyword(s):

Blastocyst Stage ◽

Cytoskeletal Proteins ◽

Mouse Embryos ◽

Trophectoderm Cells ◽

Apparent Concentration ◽

Preimplantation Mouse ◽

Early Mouse ◽

Filament Protein

The immunofluorescence technique was used to detect the presence and distribution of actin, alpha-actinin, tubulin and 10 nm filament protein in early mouse embryos. Actin and alpha-actinin stainings showed a distinct concentration to a peripheral layer in the cleavage-stage blastomeres and in trophectoderm cells. Dots of fluorescence appeared in this cortical staining pattern. The distribution of tubulin staining in the blastomere cytoplasm was relatively even with apparent concentration at the perinuclear region and frequently at wide intercellular contact areas. 10 nm filament protein was distributed evenly in the blastomere cytoplasm without cortical concentration of the label. At the blastocyst stage, the trophectoderm cells in blastocyst outgrowths in vitro developed well organized cytoskeletons including both microfilament, microtubule and 10 nm filament elements. Comparable structures were not observed in blastocysts in vivo, or in late hatched blastocysts cultured in suspension. The morphogenetic significance of the observations is discussed.

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Divergent functions and distinct localization of the Notch ligands DLL1 and DLL3 in vivo

The Journal of Cell Biology ◽

10.1083/jcb.200702009 ◽

2007 ◽

Vol 178 (3) ◽

pp. 465-476 ◽

Cited By ~ 84

Author(s):

Insa Geffers ◽

Katrin Serth ◽

Gavin Chapman ◽

Robert Jaekel ◽

Karin Schuster-Gossler ◽

...

Keyword(s):

Golgi Apparatus ◽

Mouse Embryos ◽

Functional Equivalence ◽

Presomitic Mesoderm ◽

Drosophila Wing ◽

Wing Discs ◽

Golgi Network ◽

Notch Ligands

The Notch ligands Dll1 and Dll3 are coexpressed in the presomitic mesoderm of mouse embryos. Despite their coexpression, mutations in Dll1 and Dll3 cause strikingly different defects. To determine if there is any functional equivalence, we replaced Dll1 with Dll3 in mice. Dll3 does not compensate for Dll1; DLL1 activates Notch in Drosophila wing discs, but DLL3 does not. We do not observe evidence for antagonism between DLL1 and DLL3, or repression of Notch activity in mice or Drosophila. In vitro analyses show that differences in various domains of DLL1 and DLL3 individually contribute to their biochemical nonequivalence. In contrast to endogenous DLL1 located on the surface of presomitic mesoderm cells, we find endogenous DLL3 predominantly in the Golgi apparatus. Our data demonstrate distinct in vivo functions for DLL1 and DLL3. They suggest that DLL3 does not antagonize DLL1 in the presomitic mesoderm and warrant further analyses of potential physiological functions of DLL3 in the Golgi network.

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Quality control in the IVF laboratory: in-vitro and in-vivo development of mouse embryos is unaffected by the quality of water used in culture media

Human Reproduction ◽

10.1093/oxfordjournals.humrep.a136994 ◽

1989 ◽

Vol 4 (7) ◽

pp. 826-831 ◽

Cited By ~ 18

Author(s):

Martin A. George ◽

Peter R. Braude ◽

Martin H. Johnson ◽

David G. Sweetnam

Keyword(s):

Quality Control ◽

Culture Media ◽

Mouse Embryos ◽

Quality Of Water

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Changes of the adenine ribonucleotide content during preimplantation development of mouse embryos in vivo and in vitro

Reproduction ◽

10.1530/jrf.0.0710467 ◽

1984 ◽

Vol 71 (2) ◽

pp. 467-473 ◽

Cited By ~ 8

Author(s):

H. Spielmann ◽

U. Jacob-Mueller ◽

P. Schulz ◽

A. Schimmel

Keyword(s):

Mouse Embryos ◽

Preimplantation Development

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