• 식물조직배양학회지
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• 제24권4호
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• pp.239-256
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• 1997

Plants belonging to the category of 2n apomixis or agamospermy form embryos and seeds without the processes of normal meiosis and syngamy. Seeds produced in this way have identical genotype of their maternal parent. Three different types of agamospermy are recognized: diplospory, apospory, and adventitious (adventive) embryony. $F_1$ hybrid cultivars cannot be used as seed sources in the next ($F_2$) generation because this generation would be extremely variable as a result of genetic segregation. Hybrid vigor is also reduced in the $F_2$ generation. Therefore, parental stocks for hybrid seed production need to be maintained and cross must be continuously repeated. Agamospermic 2n apomixis would make it possible to fix the genotype of a superior variety so that clonal seeds faithfully representing that genotype could be continuously and cheaply produced independent of pollination. That is, $F_1$ hybrid seeds could be produced for many generations without loss of vigor or genotype alteration. Production of apomictic $F_1$ hybrid seed would be simplified because line isolation would not be necessary to produce seed or to maintain parental lines, and the use of male-sterile lines could be avoided. Overall, apomixis would enable a significant reduction in hybrid seed production costs. Additionally, the production of clonal seed is not only important for seed propagated crops, but also for the propagation of heterozygous fruit trees and timbers. Clonal seed would help avoid costly and time-consuming vegetative propagating methods that are currently used to ensure the large-scale production of these plants. Apomixis is scattered throughout the plant kingdom, but few important agricultural crops possess this trait Therefore, most research to date has centered on introgressing the trait of apomixis into agricultural crops such as wheat, maize, and some forage grasses from wild distant relatives by traditional cross breeding. The classical breeding approach, however is slow and often impeded by many breeding barriers. These problems could be surmounted by taking mutagenesis or molecular approach. Arabidopsis thaliana is a tiny sexually reproducing plant and is convenient in constructing and screening in molecular researches. Male-sterile mutants of Arabidopsis are particularly suitable genetic background for mutagenesis and screening for apomictic mutants. Molecular approaches towards isolating the genes controlling the apomictic process are feasible. Direct isolation of genes conferring apomixis development would greatly facilitate the transfer of this trait to wide variety of crops. Such studies are now in progress.

• Asian-Australasian Journal of Animal Sciences
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• 제31권8호
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• pp.1325-1335
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• 2018

Objective: This study investigated whether spermine supplementation could regulate cell cycle, apoptosis, and amino acid transporter-related genes expression in the thymus and spleen of early weaned piglets. Methods: Eighty female piglets were randomly distributed to receive adequate nutrients supplemented with spermine (0.4 mmol/kg body weight/24 h) or to be provided with restricted nourishment supplemented with normal saline for 7 h or 3, 6, or 9 d in pairs. Results: Regardless of administration time, spermine supplementation significantly up-regulated cyclin A2 gene expression but down-regulated p21 and cyclin D3 mRNA levels in the thymus and spleen and reduced cyclin E2 gene expression in the thymus of piglets (p<0.05). Irrespective of the treatment period, the reduced Bax and caspase-3 gene expressions and improved Bcl-2 mRNA level were observed in the thymus and spleen of spermine-administrated piglets (p<0.05). Regardless of supplementation time, spermine intake significantly enhanced the expressions of amino acid transporter-related genes (SLC1A1, SLC1A5, SLC7A1, SLC7A7, and SLC15A1) in both thymus and spleen, as well as SLC7A9 in the spleen of piglets (p<0.05). In addition, extended spermine administration also markedly promoted cell proliferation, depressed apoptosis and modulated amino acid transport (p<0.05), and such effects were the greatest during prolonged spermine supplementation (6 d) compared to the other time periods (p<0.05). Conclusion: Spermine supplementation may regulate cell cycle during the G1/S phase, suppress apoptosis and modulate amino acid transport. A period of 6 d of spermine supplementation is required to produce the optimal effects on nutritional implications.

• Journal of Plant Biotechnology
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• 제35권3호
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• pp.177-183
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• 2008

본 연구는 동진벼 유래의 Ac/Ds 삽입변이집단의 GUS 분석을 통하여 뿌리 및 미숙종자에서 강하게 GUS가 발현한 개체를 선발하여 FST(flanking sequence tag) 분석 한 결과 Ds 전이 인자가 3번 염색체 zinc finger RING-H2 관련 Oszinc626 유전자의 첫 번째 exon 부위에 single copy로 삽입되어 있었으며, 선발변이체는 뿌리 및 종자 발달이 정상인 동진벼에 비해 매우 낮은 것으로 나타났다. Oszinc626 유전자는 RING-H2 type(C3-H2-C3)으로 $Cys-X_2-Cys-X_{28}-Cys-X-His-X_2-His-X_2-Cys-X_{14}-Cys-X_2-Cys$ 배열이 C-terminus 가장 말단에 위치하며, 49 kDa의 분자량을 가지고 있다. 또한 Southern blot 분석에서 Oszinc626 유전자는 벼 게놈상에 single copy로 존재하였다. RT-PCR을 통한 돌연변이 유전자의 발현분석 결과 250 mM의 염과, $4^{\circ}C$ 저온등과 같은abiotic stress에 의해 발현이 증가함을 보였고, 호르몬처리에 있어서 ABA와 IAA의 식물호르몬을 처리했을 경우 24시간까지 계속해서 발현양이 증가하는 것을 보이는 반면, 2,4-D 처리의 경우 30분 후에 발현이 일시적으로 증가되었으나 이후 발현이 급속히 감소한 것을 보였다. 벼의 조직 별 발현 검정에서 미성숙한 종자, 뿌리 분열조직 및 신초 등 주로 생장점 부위에서 강하게 발현되는 것을 보임에 따라 Oszinc626 유전자의 경우 식물의 생장에 관여하는 주동 유전자의 하나로 판단된다.

• 한국식품위생안전성학회지
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• 제31권6호
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• pp.399-405
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• 2016

고지방-고콜레스테롤 식이와 색소 2호 알곡 및 속대 추출물의 첨가량을 달리한 식이를 2주간 급여한 결과, 색소 2호 알곡 및 속대 추출물 첨가로 인한 식이섭취량 감소효과는 없었으며 체중 증가율은 대조군(C)대비 모든 처리군에서 유의적으로 감소하였고, 식이효율에서는 처리군(T3)을 제외하고 모든 처리군에서 유의적으로 감소하였다. 장기중량은 실험군 간의 체중 당 신장 무게는 유의적인 차이는 없었으며 체중 당 간 무게는 대조군(C)이 정상군(N)에 비하여 유의적으로 증가하였고, 처리군(T2)가 대조군(C)대비 유의적으로 낮았다. 혈청 중 중성지방 함량은 전체 실험군에서 유의적 차이는 없었으며, 총콜레스테롤 함량은 처리군(T2)이 대조군(C)대비 유의적으로 낮았고, HDL-콜레스테롤 함량은 처리군(T2)이 대조군(C)대비 유의적으로 높았다. 고지방-고콜레스테롤 식이로 인하여 대조군(C)의 간 조직 내 MDA 함량이 정상군(N)에 비하여 유의적으로 증가하였으며 처리군 T3와 T4가 대조군(C) 대비 간 조직 내 MDA 함량이 유의적으로 감소하는 경향을 보였다. 고지방-고콜레스테롤 식이로 인하여 대조군(C)의 catalase 활성은 정상군(N)에 비하여 유의적으로 감소하였으며 모든 색소 2호 알곡 및 속대 추출물 처리군(T1~T4)의 catalase 활성은 정상군(N)과 비슷한 수준으로 유의하게 증가하였다.