In the mammalian oocyte, distinct patterns of centromeres and pericentromeric heterochromatin localisation correlate with the gamete's developmental competence. Mouse antral oocytes display two main types of chromatin organisation: SN oocytes, with a ring of Hoechst-positive chromatin surrounding the nucleolus, and NSN oocytes lacking this ring. When matured to MII and fertilised, only SN oocytes develop beyond the 2-cell, and reach full term. To give detailed information on the dynamics of the SN or NSN chromatin during meiosis resumption, we performed a 9 hr time-lapse observation. The main significant differences recorded are: (1) reduction of the nuclear area only in SN oocytes; (2) ~17 min delay of GVBD in NSN oocytes; (3) chromatin condensation, after GVBD, in SN oocytes; (4) formation of 4-5 CHCs in SN oocytes; (5) increase of the perivitelline space, ~57 min later in NSN oocytes; (6) formation of a rosette-like disposition of CHCs, ~84 min later in SN oocytes; (7) appearance of the MI plate ~40 min later in NSN oocytes. Overall, we described a pathway of transition from the GV to the MII stage that is punctuated of discrete recordable events showing their specificity and occurring with different time kinetics in the two types of oocytes.
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| http://dx.doi.org/10.1155/2014/207357 | DOI Listing |
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Article Synopsis
- Meiotic resumption in mammalian oocytes involves significant changes in nuclear and organelle structures, particularly the transformation of chromatin from a non-surrounding nucleolus (NSN) configuration to a surrounding nucleolus (SN) configuration in germinal vesicle (GV) oocytes.
- Our research showed that nuclear speckles containing serine-arginine (SR) proteins transition from a diffuse state in NSN oocytes to a more aggregated form in SN oocytes, with the enzyme SRPK1 co-localizing with these speckles during the SN stage.
- Blocking SRPK1 activity halted the transition from NSN to SN oocytes and caused the collapse of the chromatin structure around the nucle
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