小孢子壁形成时开始在绒毡层内切线壁出现的球状体到花粉粒成熟时仍有一部分附着于花粉粒表面。
The ubisch bodies which appeared on the inner tangential wall of the tapetum at the time of microspore wall formation are partially remain on the surface of matured pollen grain.
减数分裂后,小孢子开始退化,首先是小孢子壁开始变形,随后原生质浓缩,形成干秕、皱缩的小孢子。
After the meiosis, however, the microspores began to degenerate to become blighted and wrinkled ones, starting from the deforming of their walls and concentration of their protoplasm.
在陆地棉小孢子发生过程中,相邻的减数分裂细胞壁中的细胞质通道是一个明显的特征。
The cytoplasmic channel in the wall of adjacent meiocytes was an obvious feature during microsporogenesis in Gossypium hirsutum.
在厚壁休眠细胞如藻菌纲的厚孢子或接合子中明显的几层是常常能看见的。
Distinct layers are often visible in thick-walled resting cells such as chlamydospores or zygotes of phycomycetes.
二倍体功能大孢子的合点端细胞壁内的胼胝质荧光消失。
As development goes on, callose fluorescence disappears in the chalazal wall of diplosporous functional megaspore .
外壁光滑。 周壁较厚,由周壁形成孢子的表面纹饰。
The exospore is smooth and the surface ornamentation is formed by the perispore.
本文报道了用光学显微镜和扫描电子显微镜对葫芦藓孢子形态、孢壁及纹饰等较详细观察的结果。
This paper deals with observation by light and scanning electron microscope on the spore morphology. sporoderm structure and spore-surface ornamental design of Funaria hygrometrica.
本品是以破壁灵芝孢子粉为主要原料制成的保健食品,经功能试验证明,具有增强免疫力的保健功能。
The product is a natural health food mainly made ofGanoderma lucidum spore powder. It is scientifically proven by animal function tests to help strengthen the human immune system.
卵囊孢子化后出现厚壁型与薄壁型卵囊。
Thin wall and thick wall type oocysts first appeared after oocysts sporulated.
水稻的小孢子发育,通常都能看到有二次孢壁下陷过程,称之为第一和第二收缩期。
It is well known that there are twice failings of microspore wall called first and second contraction phases individually in the rice microspore development.
分析结果表明:高速射流引起的撞击是造成灵芝孢子破壁的最主要原因。
The analysis shows that the impingement caused by the high speed jet is the main reason of sporoderm broken.
为使茶花粉孢子内营养物质能够得到充分释放,采用行星球磨机对茶花粉进行了超微化破壁试验研究。
In this study, a Pulverisette planetary ball mill was used for the ultrafine grinding of camellia pollen in attempt to achieve the full release of intracellular nutrients.
目的:研究纳米级灵芝破壁孢子粉对小鼠免疫功能的影响。
Objective: To evaluate nano broken spore powder of Ganoderma lucidum(NSPGL) on immune function of mice.
破壁过程简单易行进行,使孢子破碎率达99%以上。
The wall breaking process is simple and feasible, and the spore breakage rate is up to more than 99%.
探讨全破壁灵芝孢子治疗中老年男性部分雄激素缺乏症(PADAM)的疗效。
To investigate the effect of sporoderm-broken spores of Ganoderma Lucidum in the treatment of partial androgen deficiency of the aging male (PADAM) .
应用冷冻干燥技术,可使溶壁酶破壁灵芝孢子粉的有效成分( 多糖)的保护率在99%左右。
And the protection rate of effective component could reach 99% with lywallzyme sporoderm-broken plus freeze-drying technique.
目的研究破壁灵芝孢子粉和灵芝精粉对小鼠移植性肿瘤和机体免疫功能方面的作用。
Objective To explore the difference between effects of sporoderm-broken spores and the essence of Ganoderma lucidum Karst on tumor transplantation and body immune function in mice.
首次对灵芝破壁孢子与不破壁孢子进行了初步的比较研究。
Sporoderm-broken (SB) and sporodermwnonbroken (SN) spores of Ganoderma lucidum were compared for the first time.
比较不同破壁方法对水蕨孢子破壁率的影响。
The research aimed to compare the effects of different breaking wall methods on the sporoderm-broken rate of Ceratopteris thalictroides spores.
荧光显微镜下,子囊和子囊孢子的细胞壁均能被卡氏白染成清晰的亮蓝色,细胞结构清晰可辨。
Under the fluorescence microscope, the cell walls were stained bright blue by Fluorescent Brightener, which greatly improved the visibility of asci and ascospores.
目的:探讨全破壁灵芝孢子治疗法对男性更年期综合征的疗效。
Objective: To investigate the efficacy of sporoderm-broken ganoderma spores in treatment of male climacteric syndrome.
在不育花药中,最早出现的钙颗粒异常分布是在小孢子母细胞的胼胝质壁中积累了较多的钙颗粒。
In sterile anthers, abnormal distribution of calcium gran - ules first appeared in callus wall of microspore mother cell (Plate IV-1).
对破壁后的灵芝孢子可先用60%乙醇提取,再用水提取,合并得灵芝孢子提取物。
The lucidum spore which has the shell physically broken up can be firstly extracted with 60 percent ethanol and then with water, with the lucidum spore extract obtained after the compounding.
得出液氮研磨-超声波破碎法是一种稻曲病菌厚垣孢子破壁的有效、简便、适宜在实验室应用的方法。
Therefore, liquid nitrogen grinding plus ultrasonic crushing method is an effective, economic, convenient wall-breaking method for U. virens in the laboratory.
灵芝孢子有破壁和不破壁的两种。
灵芝孢子有破壁和不破壁的两种。
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