G E Titova, O A Seldimirova, N N Kruglova, I R Galin, T B Batygina
{"title":"[Phenomenon of “Siamese Embryos” in Cereals in vivo and in vitro: Cleavage Polyembryony and Fasciations].","authors":"G E Titova, O A Seldimirova, N N Kruglova, I R Galin, T B Batygina","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>The genesis of wheat microsporial polyembryoids in vitro was analyzed in detail. The nature of different\nphenotypes of cereal polymeric embryos was identified. They represent the class “multiple shoot meristems,”\nwhich results from a cleavage polyembryony and is accompanied by organ fasciations of all known\ntypes (radial, flat, or ring). The morphological nature of cereal embryonic organs has been clarified: shoot\nmeristem—axial organ; scutellum—lateral outgrowth of this axis; coleoptile—derivative of shoot meristem\nbut fused with scutellum; terminality of scutellum—the result of linear fasciation that occurred historically.\nAn explanation is given on how the structural model of an auxin polar transport works during the establishment\nof bilateral symmetry in a cereal embryo that is associated with the inverted polarization of the carrier\nprotein PIN1 on cell membranes and, correspondingly, with the inverted auxin transport performed by this\ncarrier (Fischer-Iglesias et al., 2001; Forestan et al., 2010).</p>","PeriodicalId":19673,"journal":{"name":"Ontogenez","volume":"47 3","pages":"152-69"},"PeriodicalIF":0.0000,"publicationDate":"2016-05-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Ontogenez","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The genesis of wheat microsporial polyembryoids in vitro was analyzed in detail. The nature of different
phenotypes of cereal polymeric embryos was identified. They represent the class “multiple shoot meristems,”
which results from a cleavage polyembryony and is accompanied by organ fasciations of all known
types (radial, flat, or ring). The morphological nature of cereal embryonic organs has been clarified: shoot
meristem—axial organ; scutellum—lateral outgrowth of this axis; coleoptile—derivative of shoot meristem
but fused with scutellum; terminality of scutellum—the result of linear fasciation that occurred historically.
An explanation is given on how the structural model of an auxin polar transport works during the establishment
of bilateral symmetry in a cereal embryo that is associated with the inverted polarization of the carrier
protein PIN1 on cell membranes and, correspondingly, with the inverted auxin transport performed by this
carrier (Fischer-Iglesias et al., 2001; Forestan et al., 2010).
对小麦小孢子多胚体的离体发生进行了详细的分析。鉴定了谷类多聚胚不同表型的性质。它们代表了“多芽分生组织”,这是由卵裂多胚形成的,并伴随着所有已知类型的器官束结(放射状、扁平或环状)。阐明了谷类胚胎器官的形态特征:芽分生-轴向器官;此轴的盾状侧生;茎分生组织的胚芽衍生物,但与盾融合;盾状体的终结——历史上发生的线状束结的结果。本文解释了生长素极性运输的结构模型是如何在谷物胚胎中建立双边对称的过程中起作用的,这与细胞膜上的载体蛋白PIN1的反向极化有关,相应的,与该载体进行的生长素的反向运输有关(Fischer-Iglesias et al., 2001;Forestan et al., 2010)。
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