水稻HDAR细胞胚胎学研究─—不定胚的发生和发育

对水稻HDAR胚胎发育过程的进一步研究表明,水稻HDAR中有2．72％（17／434）的不定胚发生和发育。其不定胚起源于胚珠内的珠心细胞。不定胚起始细胞启动分裂时,胚囊发育至2核或4核时期,8核胚囊时期,胚珠内已形成多细胞不定胚结构。随后不定胚细胞不断分裂并逐渐挤进胚囊。开花传粉后,不定胚利用胚乳提供的营养可以继续发育和分化。不定胚可以和合子胚一起发育,有时合子胚败育,不定胚继续发育并分化。讨论了水稻HDAR中不定胚的发生,及其发生远早于合子胚的意义。     

水稻HDAR细胞胚胎学研究─—不定胚的发生和发育

对水稻ＨＤＡＲ胚胎发育过程的进一步研究表明,水稻ＨＤＡＲ中有２．７２％（１７／４３４）的不定胚发生和发育,其不定胚起源于胚珠内的球心细胞,不定胚起始细胞启动分裂时,胚囊发育至２核或４核时期,８核胚囊时期胚珠内已形成多细胞不定胚结构,随后不定胚细胞不断分裂并逐渐挤进胚囊,开花传粉后,不定胚利用胚乳提供的营养可以继续发育和分化,不定胚可以和合子胚一起发育,有时合子胚败育,不定胚继续发育并分化。讨论了水     

紫萼多胚现象的研究 Ⅱ.生长激素作用下不定胚发育的观察

1.IAA及2-4D可以代替传粉作用可使80—90％紫萼的子房发育。不传粉和不处理子房在三天后全部脱落。 2.在生长激素代替传粉的子房中,合子及次生核不能分裂,因此不能形成合子胚及胚乳,但不定胚原始细胞能进行分裂,形成幼小的不定胚。 3.在生长激素代替传粉的作用下不定胚发育的初期情况和发育速度与正常的相似,但在发育后期,细胞缺少分化,表现为愈伤组织状。24天后,在无胚乳的条件下,停止生长。 4.根据实验结果分析,不定胚的发生与传粉并无直接关系。不定胚进一步分化需要胚乳或它们的活性物质的存在。     

水稻双胚苗无融合生殖胚胎学研究初报

将子房整体染色透明观察后,通过筛选材料石蜡切片的方法,研究发现水稻双胚苗品系APⅣ中,存在低频率的无融合生殖。开花前珠心细胞特化并分裂发育形成不定胚。随着珠心组织的退化,不定胚长八胚囊腔中,以球形胚形式存在。开花后4天,球形胚开始分化。球形胚在胚囊中可以和合子胚并存,也可以单独存在。但双胚主要来自受精的助细胞或合子胚纵裂。开花后3—4天,在胚乳腔中着色深的球状结构是胚乳部份脱落形成的,不是不定胚。珠孔端反足细胞团不能形成胚。     

小麦根愈伤组织胚胎发育过程研究

实验通过对６个人工合成小麦品系和对照品种“中国春”种子根愈伤组织分化形成再生植株的过程进行形态和组织切片观察,发现分化初期有２种途径,一种是从愈伤组织先形成不定胚,然后再发育成不定芽和不定根,另一种途径是直接从愈伤组织中分化发育成不定根和不定芽;分化后期不定芽和不定根生长发育有３种类型：一种是不定芽发育先于不定根,一种是不定芽与不定期不定芽和不定根生长发育有种类型：一种是不一定芽发育先于不定根,一     

TDZ诱导花生幼叶的不定芽和体细胞胚发生的组织学观察

花生实生苗幼叶接种于MS TDZ 0.2mg/L NAA0.4mg/L诱导培养基上经诱导培养,继而转移到无激素培养基MS可获得不定芽和体细胞胚。组织学观察表明,花生不定芽和体细胞胚均起源于愈伤组织表层,不定芽为多细胞起源,而体细胞胚起源于单个胚性原始细胞。体细胞胚的发育经历多细胞原胚、球形胚、心形胚、鱼雷胚和子叶胚等时期发育成小植株。     

火炬松成熟合子胚离体培养过程中诱导不定芽的影响因素研究

火世松（Pinus taed L）界南方松中最重要的针叶树种之一,在环境保护,园林绿化和林业生产中有重要应用价值。有关火炬松未成熟胚的体细胞胚胎发生和器官发生的研究报道不多,其成熟合子胚的愈伤组织器官发生未见报道。本文以取自湖南省邵阳市林场的火炬松成熟种胚为外植体,在诱导其愈伤组织器官发生的基础上,系统地研究了BA浓度,基本培养基（TE）浓度和不同碳源等对愈伤组织上不定芽的发生和发育的影响,优化了火炬松离体再生的培养条件,为火炬松的无性繁殖技术应用于实验生产奠定了基础。研究结果表明：不同的浓度条件下,4mg/LBA培养基上的不定芽诱导频率和每个胚上的芽平均数最高,分别是76．3％和3．4。火炬松器官发生愈伤组织（Fig.1)上的不定芽形成于愈伤组织表面（Fig.2)。不定芽的发生常不同步（Fig.3)。不定芽在低浓度BA(1-2mg/L）条件下发育较好(Fig.4),在高浓度BA（8－16mg/L）条件下发育减慢（Fig.5),在1mg/LBA条件下伸长生长较快（Fig.6);不同浓度基本培养基的实验结果表明,当基本培养基浓度为1．25TE时,不定芽诱导频率（73．5％）;不同浓度基本培养基的实验结果表明。池基本培养基浓度为0．5或0．75TE时,不定芽基部易形成愈伤组织（Fig.7)。在1．5TE培养基上,不定芽瘦弱且发育缓慢（Fig.8);不同碳源的实验结果表明,以2％的葡萄为碳源时,不定芽的诱导频率和每个胚上的芽平均数均最高,分别是83．7％和5．8。由此可见,4mg/LBA,1.25TE基本培养基和2％葡萄糖可能是构成火炬松成熟合子胚离体高效无性快速繁殖体系的决定性和关键因素。     

槐树子叶组织培养中的形态发生研究

槐树子叶在MS附加0.1～5 mg/L BA 和0.1—5 mg/L 2,4-D的培养丛上培养两周,获得了灰色疏松型及白、绿色紧密型两种类型的愈伤组织。后者经培养产生不定芽并再生植株。子叶切块在MS 附加0.1～8 mg/L 2,4-D等培养基上培养3周,在切口处形成愈伤组织的同时,由其表面直接分化产生胚状体。组织学观察表明,胚状体来源于子叶的表皮及叶肉细胞,胚状体产生通过单细胞起源及多细胞出芽两种方式发生。胚状体发育依次通过球形胚、心形胚、鱼雷形胚和子叶胚等阶段形成再生植株,其发育过程与合子胚相似。     

紫背天葵叶片培养体细胞胚状体发生的研究

SH液体培养基附加2,4－D（0．125mg/l),BA(0.25-0.5mg/l),CM(10%v/v)或CH（0．2%w/v),摇床培养,同一培养基中培养50天后,出现球形,心形,鱼雷,子叶胚,虽然胚状体和不定芽同样来源于叶片的表皮细胞,但它们之间有下列区别;体细胞胚状体发育有4个不同时期,而不定芽没有;球形胚形成后,能脱落分散在培养液中,芽始终和外植体连在一起;鱼雷－子叶胚有明显的苗端和根端之分,苗端有两片子叶,叶间是顶端分生组织,有原形成层结构,而不定芽仅有芽原基。     

火炬松成熟合子胚离体培养过程中诱导不定芽的影响因素研究(英文)

火炬松（ＰｉｎｕｓｔａｅｄＬ）界南方松中最重要的针叶树种之一,在环境保护,园林绿化和林业生产中有重要应用价值。有关火炬松未成熟胚的体细胞胚胎发生和器官发生的研究报道不多,其成熟合子胚的愈伤组织器官发生则未见报道。本文以取自湖南省邵阳市林场的火炬松成熟种胚为外植体,在诱导其愈伤组织器官发生的基础上,系统地研究了ＢＡ浓度,基本培养基（ＴＥ）浓度和不同碳源等对愈伤组织上不定芽的发生和发育的影响,优化了火炬松离体再生的培养条件,为火炬松的无性繁殖技术应用于实际生产奠定了基础。研究结果表明：不同的浓度条件下,４ｍｇ／ＬＢＡ培养基上的不定芽诱导频率和每个胚上的芽平均数最高,分别是７６．３％和３．４。火炬松器官发生愈伤组织（Ｆｉｇ．１）上的不定芽形成于愈伤组织表面（Ｆｉｇ．２）。不定芽的发生常不同步（Ｆｉｇ．３）。不定芽在低浓度ＢＡ（１～２ｍｇ／Ｌ）条件下发育较好（Ｆｉｇ．４）,在高浓度ＢＡ（８～１６ｍｇ／Ｌ）条件下发育减慢（Ｆｉｇ．５）,在１ｍｇ／ＬＢＡ条件下伸长生长较快（Ｆｉｇ．６）;不同浓度基本培养基的实验结果表明,当基本培养基浓度为１．２５ＴＥ时,不定芽诱导频率（７３．５％）和每个胚上的芽平均数（３．９）最高。当     

STUDIES ON THE SEED OF BANANA. I. ANATOMY OF THE SEED AND EMBRYO OF MUSA BALBISIANA

Mc Gahan , Merritt W. (United Fruit Co., Norwood, Mass.) Studies on the seed of banana. I. Anatomy of the seed and embryo of Musa balbisiana. Amer. Jour. Bot. 48(3): 230–238. Illus. 1961.—The seed coat of Musa balbisiana Colla consists of a relatively thick outer integument and a 2–cell-layered inner integument. The entire seed coat is sclerified, but routine tests for lignin are negative. Within the outer integument there is a zone of unusual sclereids tentatively termed “multiluminate.” Between the inner integument and the remnants of the nucellus is a cuticle 10–12 μ thick. The micropylar plug and collar are typical of the genus. The chalazal mass is an annular region of gelatinous cells. The mature embryo is comprised of a massive cotyledon, an epicotyl with 1 leaf primordium, a primary root primordium, and several adventitious root primordia. Procambium is well developed, but no mature vascular elements are present in the embryo.     

STUDIES ON THE SEED OF BANANA. II. THE ANATOMY AND MORPHOLOGY OF THE SEEDLING OF MUSA BALBISIANA

Mc Gahan , Merritt W. (Central Research Labs., United Fruit Co., Norwood, Massachusetts.) Studies on the seed of banana. II. The anatomy and morphology of the seedling of Musa balbisiana. Amer. Jour. Bot. 48(7): 630–637. Illus. 1961.—The first external evidence of germination of the seed of Musa balbisiana is the displacement of the micropylar plug by the elongation of the hypocotyl-radicle axis. As the hypocotyl and epicotyl emerge from the micropylar collar, the seminal adventitious roots become apparent and the cotyledonary sheath surrounding the epicotyl emerges as a coleoptile-like structure. Subsequent growth results in the elongation of the first leaves beyond the cotyledonary sheath and the rapid elongation of the adventitious root system. The vascular transition occurs between the cotyledon and the radicle. The sheath is considered to be only analogous to the coleoptile of the grasses.     

越冬期间香蕉果穗套袋的防寒效果及其对产量的影响

冬季香蕉果穗用兰色聚乙烯薄膜套袋之后,可提高袋内温度1～5℃,果实低温伤害卑只有1％左右,而未经套袋的达23％～35％,果指长度和径围增加率分别达12％和9％左右,果实产量比对照增加8％～16％。试验结果表明,兰色聚乙烯薄膜套袋是越冬期间香蕉防寒保果和增产的一项有效措施。     

Musa chunii Hakkinen,a new species （Musaceae） from Yunnan,China and taxonomic identity of Musa rubra

The center of diversity of the genus Musa （Musaceae） is in Southeast Asia, a region not studied in detail and where new species and varieties continue to be reported. A new wild banana species, M. chunii Hakkinen from Yunnan, China is described and illustrated based on observed morphological characteristics in the field. This extremely rare new species was only found in Tongbiguan Nature Reserve, Dehong District, West Yunnan. A key to M. chunii and related taxa is provided. In addition, critical notes regarding M. rubra Kurz identity are given.     

PRO－LONG涂膜处理对后熟香蕉果实乙烯形成以及其它有关生理变化的影响

香蕉（ＭｕｓａａｃｕｍｉｎａｔａＣｏｌｌａｃｖ．ＤｗａｒｆＣａｖｅｎｄｉｓｈ）果实采后以商业上推荐使用的１．５％Ｐｒｏ－ｌｏｎｇ溶液处理,贮藏于２０℃和７５％相对湿度下,分别测定果实的ＡＣＣ含量、ＭＡＣＣ含量、ＥＦＥ酶活性、乙烯释放、叶绿素含量的变化和果实的硬度变化．结果表明,ＰＲＯ－ＬＯＮＧ处理延缓了香蕉果实果皮的叶绿素降解、硬度的下降以及乙烯释放的增加．在后熟过程中,处理果实的ＡＣＣ含量发生积累．ＡＣＣ含量的高峰在乙烯释放高峰和ＥＦＥ酶活性高峰之前出现．与对照比较,处理果实的ＡＣＣ含量和ＥＦＥ酶活性的高峰延迟了５ｄ出现．在后熟过程中,以Ｐｒｏ－ｌｏｎｇ处理果肉四片,其ＥＦＥ酶活性受部分抑制（抑制率为１９．４５％至４０．５１％）．果实ＭＡＣＣ含量在贮藏起初处于一个较显著水平,随着后熟的发展而逐步增加,但与ＡＣＣ含量的明显增加相比变化是微小的．我们的研究进一步阐明了ＰＲＯ－ＬＯＮＧ涂膜对香蕉果实后熟的影响主要是通过减少氧的供给,部分地抑制了ＥＦＥ酶活性,延缓了乙烯的形成和释放,从而延长了后熟过程．     

钙对香蕉采后果实呼吸的影响

本实验对香蕉成熟过程中水溶性钙的变化及CaCl_2溶液真空浸渗处理对香蕉果实呼吸作用的影响进行研究,结果表明,香蕉成熟期间,水溶性钙含量随成熟度的提高而增加,果实呼吸跃变上升前期,水溶性钙的增加尤为明显,果皮和果肉中水溶性钙含量与采后成熟天数呈正相关。以0.05mol/l和0.1mol/l CaCl_2溶液真空浸渗,可使香蕉果实呼吸跃变高峰延迟,但没有明显降低跃变峰值。     

Domestication, genomics and the future for banana

BACKGROUND: Cultivated bananas and plantains are giant herbaceous plants within the genus Musa. They are both sterile and parthenocarpic so the fruit develops without seed. The cultivated hybrids and species are mostly triploid (2n = 3x = 33; a few are diploid or tetraploid), and most have been propagated from mutants found in the wild. With a production of 100 million tons annually, banana is a staple food across the Asian, African and American tropics, with the 15 % that is exported being important to many economies. SCOPE: There are well over a thousand domesticated Musa cultivars and their genetic diversity is high, indicating multiple origins from different wild hybrids between two principle ancestral species. However, the difficulty of genetics and sterility of the crop has meant that the development of new varieties through hybridization, mutation or transformation was not very successful in the 20th century. Knowledge of structural and functional genomics and genes, reproductive physiology, cytogenetics, and comparative genomics with rice, Arabidopsis and other model species has increased our understanding of Musa and its diversity enormously. CONCLUSIONS: There are major challenges to banana production from virulent diseases, abiotic stresses and new demands for sustainability, quality, transport and yield. Within the genepool of cultivars and wild species there are genetic resistances to many stresses. Genomic approaches are now rapidly advancing in Musa and have the prospect of helping enable banana to maintain and increase its importance as a staple food and cash crop through integration of genetical, evolutionary and structural data, allowing targeted breeding, transformation and efficient use of Musa biodiversity in the future.     

从香蕉胚性细胞悬浮系获得再生植株

2个主栽香蕉品种的未成熟雄花诱导产生的胚性愈伤组织接种至液体培养基中,经3～4个月的继代培养后长成质地均匀的胚性细胞悬浮系(ECS),悬浮系中60%～80%是胚性细胞团.ECS接种至体胚再生培养基上约4～5周后开始出现再生体胚,萌发的体胚以MS培养基培养后可获得再生植株.     

Production of haploids from anther culture of banana [<Emphasis Type="Italic">Musa balbisiana</Emphasis> (BB)]

We report here, for the first time, the production of haploid plants of banana Musa balbisiana (BB). Callus was induced from anthers in which the majority of the microspores were at the uninucleate stage. The frequency of callus induction was 77%. Callus proliferation usually preceded embryo formation. About 8% of the anthers developed androgenic embryos. Of the 147 plantlets obtained, 41 were haploids (n=x=11). The frequency of haploid production depended on genotypes used: 18 haploid plants were produced from genotype Pisang klutuk, 12 from Pisang batu, seven from Pisang klutuk wulung and four from Tani. The frequency of regeneration was 1.1%, which was based on the total number of anthers cultured. Diploid plants (2n=2x=22) were also observed in the regenerated plants. The haploid banana plants that were developed will be important material for the improvement of banana through breeding programmes.