Cytological and Genetical Studies on Male Sterility in Cryptomeria japonica D. Don
スポンサーリンク
概要
- 論文の詳細を見る
Genetic male sterility is a useful trait in plant breeding, especially in angiosperm crops such as corn, onion and carrot. We found a male sterile sugi (Cryptomeria japonica D. Don) tree in Toyama. Japan. Pollen of sugi is one of the major causes of pollinosis in Japan. We carried out this research in an attempt to make clear the characteristics and inheritance of this male sterility. Microsporogenesis of the male sterile tree proceeded meiosis, however, the microspores collapsed after they were separated from pollen tetrads in locules, resulting in complete male sterility. Most likely, ethylene evolution was responsible for male sterility expression. Full seed setting in the male sterile tree indicated normal macrosporogenesis. Seeds obtained from crossing between male sterile and normal lines showed relatively high level of germination and their seedlings grew vigorously. The somatic chromosome numbers of 241 germinated seeds, derived from the male sterile tree, were mostly 22, euploid. These results indicated that male sterile tree was different from other similar previously reported trees with low pollen fertility, resulting from triploid or trisomics. Probahly, male sterility in sugi is either nuclear genetic male sterility or cytoplasmic male sterility.
- 一般社団法人日本森林学会の論文
- 1998-08-16
著者
-
Saito Maki
Forest Experiment Station Toyama Forest And Forest Products
-
Furuta Y
Faculty Of Agriculture Gifu University
-
Furuta Yoshihiko
Faculty Of Agriculture Gifu University
-
Taira Hideaki
Niigata University Graduate School Of Science And Technology
-
Furuta Y
Gifu Univ. Gifu Jpn
-
Taira Hideaki
Niigata Univ. Niigata Jpn
関連論文
- 普通系コムギのABゲノムにおける過去700年にわたるDNA量に関する安定性〔英文〕
- Compensating ability in pollen fertilization between group-6 and -7 homoeologous chromosomes of barley and wheat
- Study of sugi (Cryptomeria japonica D. Don) with male-sterility gene using CAPS markers
- Tetra Chinese Spring with AABB genomes extracted from the hexaploid common wheat, Chinese Spring
- Microsatellite markers reveal high allelic variation in natural populations of Cryptomeria japonica near refugial areas of the last glacial period
- Identification of homoeologous translocations in tetraploid wheat (AABB genome) from Ethiopia and localization of their breakpoints by genomic in situ hybridization
- コムギにおけるα-アミラ-ゼ・アイソザイムの遺伝学的研究-6-4倍性コムギにおける変異および分化〔英文〕
- 栽培型2粒系コムギにおける自然相互転座〔英文〕
- 核DNA量からみたスゲ属の染色体進化,特に異数性について〔英文〕
- コムギのアルファ-・アミラ-ゼ・アイソザイムに関する遺伝学的研究-4-六倍性コムギにおける遺伝分析〔英文〕
- 核DNA量と染色体長に基づくヒガンバナ属の染色体進化に関する考察〔英文〕
- Triticum monococcum L.における核当りDNA量の均一性〔英文〕
- Aegilops属Sitopsis節における核当りDNAの量的比較〔英文〕
- 核当りDNA量からみたコムギおよび近縁種の系統発生〔英文〕
- Aegilops ovata L.における染色体構造変異〔英文〕
- F1雑種の染色体対合からみたaegilops variabilisおよびAe.kotschyiの種内変異〔英文〕
- エギロプス属における核当りDNAの量的変異〔英文〕
- Inheritance of the Trait of Male Sterility in Cryptomeria japonica
- Cytological and Genetical Studies on Male Sterility in Cryptomeria japonica D. Don
- 野生2粒系コムギの転座染色体の同定〔英文〕
- Immunologic determination of the major allergen, Cry j 1, in Cryptomeria japonica pollen of 117 clones in Toyama prefecture : Some implications for further forestry research in pollinosis prevention
- Dormancy release in male flowers of Cryptomeria japonica
- Effects of Stand Density on the Productivity of Cryptomeria japonica Male Flowers
- コムギにおけるα-アミラ-ゼ・アイソザイムの遺伝学的研究-7-2倍性祖先種における変異および4倍性コムギの系統発生〔英文〕
- Observations of airborne Cryptomeria Japonica pollen in the summer
- Preseasonal scattering of Cryptomeria japonica pollen in Japan, with reference to the dormancy of the male flowers
- Male flowering index can predict the annual airborne pollen count of Cryptomeria japonica at different altitudes
- The formation of pollen in male flowers and yearly atmospheric pollen counts of Cryptomeria japonica in the following year
- Nuclear DNA content in diploid wheat and its relatives in relation to the phylogeny of tetraploid wheat.
- Genetic studies on .ALPHA.-amylase isozymes in wheat. III. Intraspecific variation in Aegilops squarrosa and birthplace of hexaploid wheat.:INTRASPECIFIC VARIATION IN AEGILOPS SQUARROSA AND BIRTHPLACE OF HEXAPLOID WHEAT
- GENETIC STUDIES OF α-AMYLASE ISOZYMES IN WHEAT:II. RECONSTITUTED AABB TETRAPLOID, AEGILOPS SQUARROSA AND THEIR SYNTHETIC AABBDD HEXAPLOID