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Chung, M.S.,Lee, S.,Min, J.H.,Huang, P.,Ju, H.W.,Kim, C.S. Elsevier Science B.V., Amsterdam. 2016 Plant Physiology and Biochemistry Vol. No.
<P>Biochemical, genetic, physiological, and molecular research in plants has demonstrated a central role of glucose (Glc) in the control of plant growth, metabolism, and development, and has revealed networks that integrate light, stresses, nutrients, and hormone signaling. Previous studies have reported that AtPGR protein as potential candidates for Glc signaling protein. In the present study, we characterized transcription factors that bind to the upstream region of the AtPGR gene isolated using the yeast one hybrid screening with an Arabidopsis cDNA library. One of the selected genes (AtSTKL) appeared to confer elevated sensitivity to Glc response. Overexpression of AtSTKLs (AtSTKL1 and AtSTKL2) increased the sensitivity to GIc during the post-germination stages. In contrast, atstkl1 and atstki2 antisense lines displayed reduced sensitivity to high Glc concentration during the early seedling stage. Furthermore, we showed that the two AtSTKLs bind to the 5'-GCCT-3' element of the upstream promoter region of the AtPGR gene in vitro and repress the beta-glucuronidase (GUS) activity in AtPGR promoter-GUS (P999 GUS) transgenic plants. Green fluorescent protein (GFP)-tagged AtSTKLs were localized in the nuclei of transgenic Arabidopsis cells. Collectively, these results suggest that AtSTKL1 and AtSTKL2 function both as repressors of AtPGR transcription and as novel transcription factors in the Glc signaling pathway. (C) 2016 Elsevier Masson SAS. All rights reserved.</P>
Huang, W.T.,Tang, P.C.,Wu, S.C.,Cheng, S.P.,Ju, J.C. Asian Australasian Association of Animal Productio 2001 Animal Bioscience Vol.14 No.10
The aims of this study were first to evaluate the effects of different levels (20, 40 and 100%) and sources (follicular size: large, >7 mm; medium, >5-7 mm; small, 3-5 mm) of porcine follicular fluid (pFF) on the in vitro maturation (IVM) of porcine oocytes, and the effects of fertilization treatments and different culture conditions on development of fertilized oocytes were also investigated. No differences in the maturation (63.6-76.6%) and cleavage (24.8-34.3%) rates were observed among the 20,40 and 100% pFF groups (p>0.05). The cleavage rates of oocytes cultured and fertilized in 40% and 100% pFF maturation media were significantly higher than those fertilized in m199-NBCS (51.0-61.2% vs. 12.8-31.8%. p<0.05), regardless of sources of the pFF. When oocytes were fertilized in m199-NBCS followed by culture in rabbit oviducts for 4 days, the cleavage rate in 40% pFF group was better than that in 100% pFF group (46.9% vs. 32.5%, p<0.05). Two oocytes recovered from the oviducts in the 40% pFF group developed to blastocysts after IVC. However, none developed to blastocysts when fertilized in the IVM medium after being transferred to rabbit oviducts. In conclusion, addition of pFF accompanied with gonadotropins (FSH, LH) in IVM medium enhanced maturation and cleavage rates of porcine oocytes. Direct addition of sperm suspension to IVM medium may be an alternative to simplify the fertilization procedures and to reduce the mechanical lesion during manipulation. Furthermore, rabbit oviducts provide a better environment for the in vitro fertilized oocyte developing to the morula and blastocyst stages.
Effects of Sire Breed on the Subsequent Reproductive Performances of Landrace Sows
Huang, Y.H.,Yang, T.S.,Lee, Y.P.,Roan, S.W.,Liu, S.H. Asian Australasian Association of Animal Productio 2003 Animal Bioscience Vol.16 No.4
Reproductive traits of sows are determined chiefly by the genetic background of the dam herself. Whether the breed of the serviced boars also contributes is not yet clear. A total of 8,946 litters of Landrace (L) sows from 68 farms were examined. Of these, 876, 1,260, and 6,810 litters were produced from natural mating with L, Yorkshire (Y), and Duroc (D) breeds, respectively. The birth litter size (BLS), weaning litter size (WLS), live born piglets (LBP), and survival rate % (SR), of every litter were recorded. A general linear-model procedure was followed to estimate the effects of boars' breed (B), parity (P) and B${\times}$P interaction on the reproductive traits of the sows. Results show that BLS, WLS, and LBP were all significantly (p<0.001) affected by B and P. SR% was significantly influenced by B but not by P. L sows crossbred with Y or purebred with L produced litters with higher BLS, WLS, and LBP values than those bred with D. Pure L breeding yielded litters with lower SR% than did crossbreeding with D, while the difference between SR% due to LY and that due to LD crossbreeding was not significant. The interaction of B with P was significant with respect to BLS, WLS, and LBP (p<0.001), but not SR%. No significant B effect on reproductive traits was measured in sows at their first parity; but at latter parities, LL or LY produced litters with similarly high BLS, WLS and LBP, which values were all significantly greater than those of LD litters. The breed of boar evidently affected the subsequent reproductive performance of L sows and this effect may be further manipulated by the parity effect. Breed differences in semen quality and the success of fetus development with different interactions of the genetic background with the uterus function of the sow that may contribute to these effects are discussed.