β-카로틴 강화벼 도입유전자의 도입 위치와 안정성을 도입 위치 주변염기서열 분석과 서던 분석한 결과, 벼 염색체 2번 중 30,363,938번과 30,363,973번 사이의 단일 부위에 도입유 전가 도입되었으며, T5-T7 세대 동안 도입된 모든 유전자들 이 안정적으로 유지되고 있으며, 도입유전자의 운반체인 Backbone DNA (pSB11)는 β-카로틴 강화벼에 삽입되지 않 았음을 확인하였다. 선발 마커로 도입된 PAT 단백질의 발현 분석 결과에서도 T5-T7 세대별, 생육시기별로 안정적으로 발 현됨을 검정하였으며, 목적 형질인 β-카로틴 분석 결과에서 도 모품종인 낙동벼에 비해 9.4배 함량이 증가됨을 확인하였 다. 이상의 분석기법을 통해 복수세대에서 β-카로틴 강화벼 의 도입 유전자들이 안정적으로 유지되고 목적 단백질들이 안정적으로 발현되고 있음을 확인하였다.

기존의 유전자변형식물은 외래의 도입유전자를 갖고 있으며 이들로부터 기인한 단백질 또는 합성물질에 의한 의도적/비의도적 영향에 대한 안전성 논란이 사회적 이슈가 되어 왔다. 최근의 기술적 진보에 의하여 이른바 식물육종의 신기술이 발달하게 되었고 이들 기술로 만든 신규식물에 대한 안전성평가에 GMO 관련 규제의 적용 여부 문제가 대두되게 되었다. 이들 NPBTs 기술로 만든 신규식물의 특징은 SDN이나 ODM과 같이 염색체상의 정확한 위치에 짧은 염기서열의 indel(s)이나 단일염기 돌연변이를 도입하여 자연적인 돌연변이와의 구별이 거의 불가능하거나, cisgenesis와 같이 성적교잡이 가능한 종 유래의 유전자를 구조변형 없이 도입하여 근연종과 동질적인 식물을 만들거나, heterozygous 형질전환체 후대세대의 null-segregant 선발이나 epigenetic를 이용하여 도입유전자가 존재하지 않지만 목적 형질을 갖는 식물체를 만드는 장점이 있다. 또한 grafting이나 Agro-infiltration 등의 방법으로 안전성평가를 회피하거나 경감할 수 있는 가능성을 높이게 되었다. OECD를 비롯한 주요 GMO 개발국의 관련 학회에서는 SDN, ODM 및 cisgenesis 또는 intragenesis 기술로 만든 식물에 대하여 non-GM 식물과 동일한 위해성평가 규정을 적용하거나 상황에 따라 완화된 규정을 적용할 수 있다고 판단하고 있다. 현 시점에서 이들 NPBTs 기술을 이용하여 개발된 식물이 상업화된 예는 없으나 많은 국가에서 상업화를 목적으로 개발 중이며 일부에서는 안전성평가를 완료한 단계이다. 이러한 현실에서 NPBTs 기술의 개념 정립, 신규식물의 안전성평가의 방향 설정 및 현실성 있는 작물개발 방안을 마련하여야 한다. 이를 통하여 GMO에 대한 안전성 논란과 사회적 거부감을 우회하는 동시에 답보 상태에 있 는 분자육종 분야의 발전을 도모할 계기를 마련하여야 한다.

The correct development of male gametophytes (pollen grains) in flowering plants is essential for proliferate in gamete production. Here we have taken a map-based cloning approach using Arabidopsis male gametophytic mutant, named gemini pollen3 (gem3) to identify and characterize key gene that is expressed gametophytically for the completion of microgametogenesis focusing on genes which control cell division and cell fate determination. Previously reported gem1 and gem2 mutants with similar characteristics to gem3 that are disturbed at asymmetric division and cytokinesis at pollen mitosis I (PMI) in Arabidopsis. However, gem3 was mapped to a different genetic locus, and pollen developmental analysis revealed that gem3 exert an effect at meiosis and mitosis causing complete sterility. We also discovered that gem3 homozygous lines produce aberrant pollen grains, arising from incomplete cytokinesis during male meiosis with sporophytic phenotypes of twisted-shape leaves, large flowers. This mutation shows reduced genetic transmission of gem3 allele through male gametophyte. In previous results, the gem3 locus was confirmed by mapping to the region located on chromosome 5. To further confirm strong candidate gene, we performed sequencing and genetic complementation analysis. Currently, we are performing functional studies of the gem3 gene for the better understanding of molecular mechanisms that control asymmetric division at meiosis and mitosis during pollen development.

OsLPS is pollen specific gene that express at late stage of pollen development in rice. Based on microarray database, promoter region of two genes Os03g0106900 and Os03g0106500 were identified. The sequence of 2287bp and 2468bp upstream region of these genes were amplified and designated as OsLPS10 and OsLPS11. These promoters were fused with GUS-GFP reporter gene in a destination vector, pKGWFS7 and introduced into rice (Dongjin cultivar) and Arabidopsis (Col-0). The results of GUS assay showed different pattern of gene expression in pollen of rice and Arabidopsis. In Arabidopsis, the OsLPS10 gene strongly activated in young anther and not expressed in mature pollen. Pollen development analysis revealed GUS expression was detected at unicellular stage and strongest at the bicellular pollen developmental stage. No GUS signal was recorded in mature pollen. In case of OsLPS11, no GUS signal was detected in during pollen development of inflorescent. By contrast, in rice, the GUS expression pattern of OsLPS10 and OsLPS11 exhibited similar. GUS expression was first detectable in the anthers of spikelets at the bicellular stage and intensity increased in tricellular and mature pollen. The GUS signal was not detected in the anthers in unicellular microspores in both genes, OsLPS10 and OsLPS11. The results suggested that these genes were different activity in heterologous plant system, monocot and dicot. Complementation analysis and Cis-regulatory elements will be examined to illuminate the characteristic of these genes

Based on the results of microarray analysis we selected ten candidate genes that express in pollen at the early pollen developmental stage. By PCR amplification, the promoter region of these genes were amplified from rice genomic DNA (Nipponbare) and cloned into the destination pKGWFS7 vector via an entry vector, pDONR201. The characteristic of promoters were evaluated in Arabidopsis thaliana (Col-0) through GUS expression analysis. Fifty T2 plants respectively from each promoter were tested. Whole inflorescence of individual plant was stained with 1mM X-Gluc solution to observe tissue-specific GUS expression patterns. The results showed that all 10 promoters activated in pollen tissues. Among them six promoters expressed at the early developmental stage (unicellular) of pollen and the others expressed at both early (unicellular) and late pollen developmental stage (mature pollen). The results indicated that these promoters would be potential applicable for the studies of pollen function. Currently, we are performing these promoters analysis in rice transgenic plants as well as molecular characterization.

국내에서는 아직까지 유전자변형 작물이 재배되고 있지 않으나 유전자변형 작물의 환경방출을 위해서는 반드시 환경위해성 평가가 수행되어야 한다. 본 연구에서는 병저항성 유전자변형 벼(OsCK1)로부터 비 형질전환 벼(낙동벼)와 잡초성벼(R55)로의 화분 매개에 의한 유전자 이동성을 평가하였다. 비 형질전환 벼로부터 449,711립의 종자를 얻었으며 잡초성벼로부터는 164,604립의 종자를 수확하였다. 교잡개체는 2회의 제초제 살포와 병저항성 벼에 특이적인 프라이머를 이용한 분자생물학적 방법을 통해 저항성 여부를 검증하였다. 개화기간이 서로 일치하였음에도 불구하고 비 형질전환 벼에서만 교잡개체를 확인할 수 있었으며, 교잡율은 교잡개체가 발생한 거리에 따라 0.013～0.018%로 나타났다. 모든 교잡개체들은 병저항성 유전자변형 벼에 근접한 0.6 m내에서 발견되었다. 화분 매개에 의한 병저항성 유전자변형 벼의 유전자 이동성은 앞서 연구된 결과와 유사한 것으로 나타나 농업환경에 방출되더라도 환경에 미치는 영향은 다른 벼들과 비슷할 것으로 추정되었다. 개화기간 중 온도와 습도 등 기상요인이 벼의 교잡율을 결정하는데 중요한 요소이었다. 따라서 유전자변형 벼와 주변 재배종 및 잡초성벼로의 유전자 이동에 의한 안전관리 대책을 마련하기 위해서 지역의 기상요인과 개화기 중복 등의 요인들이 충분히 고려되어야 할 것이다.

The THO/TREX complex mediates the transport of nascent mRNAs from the nucleus towards the cytoplasm in animals, and it has a role in small RNA-dependent processes in plants. Here we describe five mutant alleles of Arabidopsis thaliana THO2, whichencodes a core subunit of the plant THO/TREX complex. tho2 mutants present strong developmental defects resembling those in plants compromised in microRNA (miRNA) activity. In agreement, not only the levels of siRNAs, but also of mature miRNAs were reduced in tho2 mutants. As a consequence miRNA target mRNAs accumulated to higher levels than in wild type. Yeast two hybrid experiments showed that THO2 does not seem to interact with any of the known miRNA biogenesis components, implying a more indirect role of THOs in small RNA biogenesis. We also detected alterations in the splicing pattern of genes encoding Serine/Arginine-rich proteins in tho2 mutants, suggesting a previously unappreciated role of the THO/TREX complex in alternative splicing.

A male gametophyte, or pollen develops in the anther, and its development plays an important male reproductive process in flowering plants. A properly designed transgene construct can help to tailor transgene expression in plants by altering the expression strength, timing, and location. In this process, the promoter plays a pivotal role in controlling transgene expression. In this research, the promoter regions of rice anther/pollen-specific genes, named as OsMSP1 to OsMSP11,were selected from the microarray data sets covering 4 developmental stage of male gametophyte and then used for the construction of vector by Gateway cloning method and transformed into rice and Arabidopsis. All 11 promoters in rice and 9 in Arabidopsis were displayed as anther/pollen-specific/preferential genes by GUS assay and RT-PCR analysis. Three out of 11 promoters showed consistent results with published data. In this study, we demonstrated on eight new anther/pollen-specific or -preferential promoters (OsMSP1, OsMSP2, OsMSP3, OsMSP4, OsMSP5, OsMSP6, OsMSP8, and OsMSP9, which have not been reported before. Although the expression pattern of different genes active in pollen grains is diverse and complex, these experimental results would be helpful to understand the molecular mechanism of regulatory elements in rice microspore/pollen-specific genes.

Arabidopsis Fused kinase TWO-IN-ONE (TIO) controls phragmoplast expansion and interacts with the Kinesin-12 subfamily proteins that anchor the plus ends of interdigitating microtubules (MTs) in the phragmoplast midzone. Previous analyses of loss-of-function mutants and RNA interference lines revealed that TIO positively controls both somatic and gametophytic cell cytokinesis, however, knowledge of the full spectrum of TIO functions during plant development remains incomplete. In order to further characterize TIO functions, we expressed TIO and a range of TIO variants under control of its own promoter in wild type Arabidopsis plants. We discovered that TIO-overexpressing transgenic lines produce enlarged pollen grains, arising from incomplete cytokinesis during male meiosis, and showed sporophytic abnormalities indicating polyploidy. These phenotypes arose independently in TIO variants that abolished either gametophytic function or the ability of TIO to interact with Kinesin-12 subfamily proteins. Interaction assays in yeast showed TIO to bind to AtNACK2/TETRASPORE and plants doubly homozygous for kinesin-12a and kinesin-12b knockout mutations to produce enlarged pollen grains. Our results show that TIO dominantly inhibits male meiotic cytokinesis in a dosage dependent manner that may involve direct binding to acomponent of the canonical NACK-PQR cytokinesis signaling pathway.

비타민A 강화벼의 복수세대에 대한 후대안정성을 Southern blot과 PCR로 분석한 결과, 비타민A 강화벼의 PAC T3～T6 세대에서는 도입된 모든 유전자들이 안정적으로 도입되어 있으며, backbone DNA는 비타민A 강화벼에 삽입되지 않았음을 확인하였다. 선발 마커로 도입된 PAT 단백질의 발현 분석 결과에서도 PAC T3～T6 복수세대에서 생육시기별 부위별로 안정적으로 발현됨을 입증하였으며, 최종 목적 산물인 카로티노이드 분석 결과에서도 모품종인 낙동벼에 비해 비타민A 강화벼에서 β-carotene은 10.6배 함량이 증가되고, zeaxanthin과 α-carotene는 생성되었음을 확인하였다. 이상의 분석기법을 통해 복수세대에서 비타민A 강화벼의 도입 유전자들이 안정적으로 유지되고 목적 단백질들이 안정적으로 발현되고 있음을 확인하였다.

본 연구는 벼에서 양성자 펌프의 활성을 증가시키는 것으로 알려진 오옥실 결합단백질 ABP57 유전자의 과발현에 따른 분자생물학적 특성을 분석해 작물 분자육종을 위한 기초자료로 활용하고자 수행하였다.ABP57 유전자 과발현 형질전환체와 대비 품종 낙동벼의 뿌리조직에서 유전자 발현 변화를 비교 분석한 결과는 다음과 같다. 두 식물체간에 발현량이 2배 이상 차이를 보인 유전자 수는 29,389개 중 총 148개였으며, 그 가운데 65개는 발현량 증가를 보였다. ABP57 유전자 과발현 형질전환체에서 발현량 변화를 보인 유전자들의 생물적 기능을 분석하기 위해 유전자 온톨로지 분석을 수행한 결과 각 부문별로 생물적 작용 부문에 67개 세부항, 세포 구성요소 부문에 59개 세부항, 분자기능 부문에 29개 세부항에 각각 영향을 미치는 것으로 나타났다. ABP57 유전자 과발현에 따라 세 개 부문 모두에서 공통적으로 나타난 영향은 H+-ATPases의 활성 증가, 여기에 필요한 에너지원 관련 화합물(ATPs, purines) 생합성 및 대사관련 활동 증가, 이온의 막투과 및 운반체 활동 증가 등이 확인되어 Kim et al.(2001)의 선행 연구결과와 일치하는 경향이었다. 그러나, 엽록체의 일부 구성요소나 G-protein 결합 단백질 신호전달경로, cytokine 신호전달 경로 등과 관련된 단백질 활성 감소는 식물 생육에 부정적 영향을 미칠 것으로 추정된다.따라서, 향후 작물의 효율적 분자육종을 위해서는 개별 유전자의 명확한 기능 분석과 더불어 유전자 상호작용에 대한 네트워크 분석 등에 대한 연구개발 노력과 함께 형질전환 식물체에 대한 생리적 특성, 표현형, 농업형질 특성 등에 대한 효과적 분석을 위해 전통육종과의 지속적 교류와 협력이 반드시 필요할 것이다.

A new rose variety, ‘Love Letter’ was selected from the progenies of a cross between ‘Red Giant’ and ‘Ensemble’ by rose breeding team of the Gyeonggi-Do Agricultural Research and Extension Services(GARES) in 2011. ‘Love Letter’ was crossed in 2007 and seedlings were produced. After the test of specific characters from 2008 to 2011, it was finally selected and named. ‘Love Letter’ was developed because of distinctive characters such as growth uniformity and high yielding potential. A standard type with large sized flower, It has red(Red Group 46A) color flower. ‘Love Letter’ takes 43 days from pruning to blooming and cut flower productivity was 152 stems/m2 in a year. The stems of cut flower have no thorn and the length was long with 70.5 cm. It has 9.3 cm in flower diameter and 32.4 in petal numbers per flower. Vase life of the this cultivar could be as long as 12 days.

A new rose variety, ‘Venus Berry’ was selected from the progenies of a cross between ‘Boy Friend’ and ‘GSR10315’ by rose breeding team of the Gyeonggi-Do Agricultural Research and Extension Services(GARES) in 2011. ‘Venus Berry’ was crossed in 2007 and seedlings were produced. After the test of specific characters from 2008 to 2011, it was finally selected and named. ‘Venus Berry’ was developed because of distinctive characters such as growth uniformity and high yielding potential. The petal of flower is so thick and has no scratch. A standard type with large sized flower, it has light pink(Red Purple Group 69C) color flower. ‘Venus Berry’ takes 45 days from pruning to blooming and cut flower productivity was 194.1 stems/m2 in a year. The length of cut flower was long with 65.5 cm. It has 10.2 cm in flower diameter and 43.6 in petal numbers per flower. Vase life of the this cultivar could be as long as 12 days.

Agriculture plays a vital role in the sustenance of human society and is the fundamental of developing economies. Nitrogen is one of the most critical inputs that define crop productivity. To ensure better value for investment as well as to minimize the adverse impacts of the accumulative nitrogen species in environment, improving nitrogen use efficiency of crop plants is of key importance. Efforts have been made to study the genetic and molecular biological basis as well as the biochemical mechanisms involved in nitrogen uptake, assimilation, translocation and remobilization in crops and model plants. This review gives an overview of metabolic, enzymatic, genetic and biotechnological aspects of nitrogen uptake, assimilation, remobilization and regulation. This review presents the complexity of nitrogen use efficiency and the need for an integrated approach combining physiology, quantitative trait genetics, system biology, soil science, ecophysiology and biotechnological interventions to improve nitrogen use efficiency.