The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster

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The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster. / Golubkova, E.V.; Mamon, L.A.

Cell Division: Theory, Variants and Degradation. Nova Science Publishers, Inc., 2010. p. 186, 127-132.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research

Harvard

Golubkova, EV & Mamon, LA 2010, The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster. in Cell Division: Theory, Variants and Degradation. Nova Science Publishers, Inc., pp. 186, 127-132. <https://www.novapublishers.com/catalog/product_info.php?products_id=11175>

APA

Golubkova, E. V., & Mamon, L. A. (2010). The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster. In Cell Division: Theory, Variants and Degradation (pp. 186, 127-132). Nova Science Publishers, Inc.. https://www.novapublishers.com/catalog/product_info.php?products_id=11175

Vancouver

Golubkova EV , Mamon LA. The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster. In Cell Division: Theory, Variants and Degradation. Nova Science Publishers, Inc. 2010. p. 186, 127-132

Author

Golubkova, E.V. ; Mamon, L.A. / The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster. Cell Division: Theory, Variants and Degradation. Nova Science Publishers, Inc., 2010. pp. 186, 127-132

BibTeX

@inbook{61210b17c11d4f17b7e25e98c5a58486,

title = "The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster",

abstract = "The known function of the evolutionary conservative NXF1 (Nuclear eXport Factor) is the nuclear-cytoplasmic transport of the most mRNAs (Herold et al., 2003). On our data Dm NXF1 is involved in control of cell division (Mamon et al., 1990; Nikitina et al., 2003). There is the maternal effect some of the mutant alleles of sbr (Dm nxf1) gene on early embryonic mitoses in D.melanogaster (Golubkova et al., 2006). The most character disturbances in embryonic progeny of females, hemizygous for the mutation sbr10, are the asynchrony of the first cleavage divisions, variations in nuclear sizes, and “mitotic catastrophes”. The transcripts of the sbr gene are numerous in both ovaries and early embryos (Ivankova et al., in press). The lighter fraction of sbr transcripts disappeared after 2 h of embryonic development. In D.melanogaster the general early embryonic mRNAs is provided maternally. We conclude that the broad band of mRNA observed in early embryos (0-2 h) and ovaries is likely composed of two fractions. We spec",

author = "E.V. Golubkova and L.A. Mamon",

year = "2010",

language = "English",

isbn = "978-1-60876-986-5",

pages = "186, 127--132",

booktitle = "Cell Division: Theory, Variants and Degradation",

publisher = "Nova Science Publishers, Inc.",

address = "United States",

}

RIS

TY - CHAP

T1 - The Role of Dm NXF1 in Controlling Early Embryonic Mitoses in Drosophila melanogaster

AU - Golubkova, E.V.

AU - Mamon, L.A.

PY - 2010

Y1 - 2010

N2 - The known function of the evolutionary conservative NXF1 (Nuclear eXport Factor) is the nuclear-cytoplasmic transport of the most mRNAs (Herold et al., 2003). On our data Dm NXF1 is involved in control of cell division (Mamon et al., 1990; Nikitina et al., 2003). There is the maternal effect some of the mutant alleles of sbr (Dm nxf1) gene on early embryonic mitoses in D.melanogaster (Golubkova et al., 2006). The most character disturbances in embryonic progeny of females, hemizygous for the mutation sbr10, are the asynchrony of the first cleavage divisions, variations in nuclear sizes, and “mitotic catastrophes”. The transcripts of the sbr gene are numerous in both ovaries and early embryos (Ivankova et al., in press). The lighter fraction of sbr transcripts disappeared after 2 h of embryonic development. In D.melanogaster the general early embryonic mRNAs is provided maternally. We conclude that the broad band of mRNA observed in early embryos (0-2 h) and ovaries is likely composed of two fractions. We spec

AB - The known function of the evolutionary conservative NXF1 (Nuclear eXport Factor) is the nuclear-cytoplasmic transport of the most mRNAs (Herold et al., 2003). On our data Dm NXF1 is involved in control of cell division (Mamon et al., 1990; Nikitina et al., 2003). There is the maternal effect some of the mutant alleles of sbr (Dm nxf1) gene on early embryonic mitoses in D.melanogaster (Golubkova et al., 2006). The most character disturbances in embryonic progeny of females, hemizygous for the mutation sbr10, are the asynchrony of the first cleavage divisions, variations in nuclear sizes, and “mitotic catastrophes”. The transcripts of the sbr gene are numerous in both ovaries and early embryos (Ivankova et al., in press). The lighter fraction of sbr transcripts disappeared after 2 h of embryonic development. In D.melanogaster the general early embryonic mRNAs is provided maternally. We conclude that the broad band of mRNA observed in early embryos (0-2 h) and ovaries is likely composed of two fractions. We spec

M3 - Chapter

SN - 978-1-60876-986-5

SP - 186, 127-132

BT - Cell Division: Theory, Variants and Degradation

PB - Nova Science Publishers, Inc.

ER -

ID: 4629832