01240nam 2200373 450 991071347790332120200421094513.0(CKB)5470000002500872(OCoLC)1151403834(EXLCZ)99547000000250087220200421d1972 ua 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierElection of the members of the National Assembly in the Republic of Korea /prepared by Sung Yoon Cho[Washington, D.C.] :Far Eastern Law Division, Law Library, Library of Congress,1972.1 online resource (3 pages)Typescript."January, 1972"--Page 3.Includes bibliographical references.Election lawKorea (South)ElectionsKorea (South)Election lawElectionsCho Sung Yoon1928-2017,1371368Library of Congress.Law Library,DLCGPOBOOK9910713477903321Election of the members of the National Assembly in the Republic of Korea3460077UNINA03794nam 2200997z- 450 991063779490332120231214133324.03-0365-5290-1(CKB)5470000001631587(oapen)https://directory.doabooks.org/handle/20.500.12854/94501(EXLCZ)99547000000163158720202212d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierParasitic WeedsBiology and ControlBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (152 p.)3-0365-5289-8 The parasitic lifestyle in plants has always been the subject of curiosity of scientists, but during the last decade, our understanding of parasitic plant–host interactions has greatly evolved due to rapid advances in molecular and genomic tools, especially high throughput DNA sequencing, transcriptomics, and metabolomics. Recent findings taken the science of parasitic plants to a higher level, opening up new horizons in parasitic weed management. The discovery of a novel family of phytohormones, the strigolactones, and their involvement in the host detection and evolution of parasitic plants, the detection of information exchange between host and parasite, and elucidation of the suppression of host defense mechanisms by parasites has led to a deeper understanding of physiological processes in host–parasite interactions. In the light of recent achievements, the re-evaluation of control management, including smart chemical control, crop breeding, and molecular genetics, are on the agenda.Parasitic Weeds Research & information: generalbicsscBiology, life sciencesbicsscchemigationdrip irrigationEgyptian broomrapeherbicideimazapicparasitic plantstomatoweed controlsunflower (Helianthus annuus)broomrape (Orobanche cumana)broomrape resistancetranscriptomicsGC-MS analysisholoparasitic plantmetabolic changesparasitic organsparasitic weedsStrigaOrobanchePhelipanchechickpeastrigolactonechickpea phenotypechlorophyllcarotenoidanthocyaninCuscutafood chainfeeding modeheavy metalholoparasitehosttRNAmobile mRNAcrop safetybranched broomrapeimazamoxsulfosulfurongermination stimulantisothiocyanatesstructure-activity relationshipsuicidal germinationStriga hermonthicaseedbankstrigolactone analogswitch weedsmethyl phenlactonoatePhelipanche aegyptiacaglyphosateethametsulfuron-methylchemical controlResearch & information: generalBiology, life sciencesDor Evgeniaedt1331813Goldwasser YaakovedtDor EvgeniaothGoldwasser YaakovothBOOK9910637794903321Parasitic Weeds3040594UNINA