超微生物

本文还讨论了超微生物化石的术语问题。

The term , namely ultra-microfossil , is discussed as wel1 .

超微生物钙颗粒剂毒理学实验

Minuteness Granule Calcium of Biology Poison Experiment Research

真空冷冻干燥技术在发展超微生物材料中的应用

Development on Superfine Biomaterials Using Vacuum Freeze-Drying

首先，它们是笔者根据形态、结构和元素成分作为超微生物化石进行鉴定的。

Firstly , they were identified by authors as ultra microfossils instead of ultra microbes based on their morphology , structure and elemental composition .

生产力的变化对于理解环境变迁有重要的作用，浮游有孔虫和钙质超微生物是海洋中最重要的初级生产者之一，主要生长在上部透光带，是表层海水生产力的主要贡献者。

Variation of growing ability is vital to comprehension of environmental transition . Planktonic foraminifera and calcareous nanofossil are two of the most primary producers , which grow mainly in upper euphotic zones and are main contributors of surface water growing abilities .

本文采用了截留分子量为70000的平板超滤膜对微生物胞外多糖PS-9415的发酵液进行了超滤浓缩的研究。

Flat sheet membrane ultrafiltration cup with membrane molecular weight of 70,000 was used to concentrate PS-9415 fermentation broth .

主要从理论上分析超高压食品微生物的钝化及影响因子，简述微生物钝化辅助方法；

The influencing factors and inactivating mechanism of microorganism when ultra-high pressure processed food were analyzed , following some assistant measures on inactivating microorganism .

利用双向凝胶电泳技术建立了副溶血弧菌总蛋白标准图谱的双向电泳体系，并利用高分辨质谱技术解析高压胁迫的蛋白表达谱差异，从而在分子水平上揭示超高压致微生物损伤的蛋白变化机制。

Moreover we established a proper system of two-dimensional gel electrophoresis ( 2-DE ) to differentiate the total protein expression profiling of Vibrio parahaemolyticus under high pressure stress , in order to reveal the potential molecular mechanisms of microbial damage caused ultra-high pressure .

超高压处理对微生物生理特性的影响

Effect of high hydrostatic pressure on microbial physiological characteristics

超高压在工业微生物诱变选育中的应用初探

Mutation Effect of Ultra High Pressure on Industrialized Microbe

（超）高压对微生物有多方面的影响，它不仅可使微生物细胞体积形态、细胞组分发生变化，还可使微生物的基因表达和核酸结构及其生物学功能发生改变。

( Ultra ) high pressure had many influences on microbe . It could regulate the expression of gene and protein , influence DNA 's structure and function as well as change cell morphology and cell component .