单头亚菊的组织培养与快速繁殖

以单头亚菊茎段为外植体对其进行组织培养,MS为基本培养基,设置不同激素浓度配比。对实验结果进行观察分析,筛选出合适的配方。启动培养基为Ms＋0．5mg·L-16-BA＋0．01mg·L-1NAA。继代培养基MS＋O．75mg·L-1。6-BA＋0．01mg·L。NAA,可获得较高的增殖率。不定根最适诱导培养基为1／2MS＋O．15mg·L—IBA,生根率达87％以上,组培苗移栽成活率达98％。     

‘香槟’月季的组织培养和试管开花诱导

本文对‘香槟’月季（80sachinensis‘Xiangbin’）的组织培养技术和诱导试管开花进行了研究。结果表明：以茎段为外植体能诱导获得无菌苗,适宜的启动培养基为MS＋6-BA1．0mg-L-1＋IBA0．1mg·L-1,幼芽继代增殖的最佳培养基是MS＋6．BA1．0mg·L-1。＋IBA0．1～0．2mg·L-1,诱导生根的适宜培养基为1／2MS＋NAA0．3mg·L-1,生根率达80．0％。诱导试管开花的适宜培养基为MS＋6．BA0．5mg·L-1＋NAA0．1mg·L-1最适宜的诱导试管开花的蔗糖含量是30g·L-1;在三角瓶中培养,试管花可以正常开放,在培养瓶中培养花芽不能正常开放;MS培养基中增加2倍磷的含量,可以提高花芽诱导率,为25．O％;诱导试管开花的最适培养条件为温度21℃,光照强度80～100μmol·m-2．s-1,光照时间16h—d-1。     

Biotechnological Production of Plant-Based Insecticides

ABSTRACT:?

The demand for natural and nonpersistent insecticides is increasing day by day. Plant cell cultures could be an alternative to conventional methods of production of insecticides from field-grown plants. In vitro cultured plant cells produce a wide array of insecticides as a part of their secondary metabolism. Their ability to synthesize key enzymes and the manipulation of these could lead to the enhanced production of many insecticides of industrial importance. The development of a high-yielding hairy root culture system for thiophenes, nicotine, and phytoecdysones is of considerable interest. In this article, the current literature on various factors that influence the growth, production, and secretion of six insecticidal compounds, namely, pyrethrins, azadirachtin, thiophenes, nicotine, rotenoids, and phytoecdysones which have been prospects for the scale-up of cell cultures, genetic engineering to obtain transgenic plants, and metabolically engineered plants for increased production of bio-molecules, has been discussed. Environmental safety clearance and the future prospects of application of bio-molecules for plant-derived insecticides are presented.     

Estrous Cycle‐Dependent Expression of Estrogen Receptor α in Periodontal Tissue

Estrogen receptor α (ERα) may play important roles in many estrogen physiological effects, but little is known about the fluctuation of ERα during the estrous cycle. In this study, the dynamic expression of ERα mRNA and protein in periodontal tissue during the estrous cycle were examined. Forty 12‐week‐old female rats were divided into four groups, based on the estrous cycle stage, and sacrificed. Immunohistochemistry and in situ hybridization were used to detect dynamic changes in ERα protein and mRNA in periodontal tissue during the estrous cycle, and data were analyzed by one‐way ANOVA and cosinor analysis for temporal patterns. Significant differences (p<0.05) were found in the expression of ERα protein and mRNA among the four groups. The expression of ERα protein and mRNA exhibited an infradian rhythm with a period of about 120 h (five days). The phase and amplitude differences between ERα protein and mRNA were not significant (p>0.05). The results suggest the expression of ERα is dynamic during the estrous cycle and that in the future chronobiologic methods should be used to study the mechanism of estrogen effect on periodontal tissue.     

Soluble interleukin‐1 receptor,a potential negative regulator of orange‐spotted grouper Epinephelus coioides interleukin‐1 system

In this study, the cDNA sequence encoding interleukin‐1 (Il‐1) receptor‐like protein of orange‐spotted grouper Epinephelus coioides was obtained. The newly identified sequence was named soluble type I Il‐1 receptor (sIl‐1rI) owing to its structural composition, which had two Ig‐like domains, lack of transmembrane region and the Toll/interleukin‐1 receptor (TIR) domain, similar to the brown rat Rattus norvegicus soluble Il‐1rI. In addition, sequence comparison and phylogenetic analysis indicated that E. coioides sequence had a closer relationship with Il‐1rI than Il‐1rII. Real‐time PCR revealed that sil‐1rI mRNA expression presented a process of decrease, restoration and increase in Cryptocaryon irritans‐infected E. coioides. The negative correlation between Il‐1β and sil‐1rI mRNA in C. irritans‐infected head‐kidney implied the potential negative regulatory role of sil‐1rI in E. coioides Il‐1 system. The leucocytes incubated with lipopolysaccharide or polyriboinosinic polyribocytidylic acid exhibited different expression profiles of sil‐1rI. Recombinant Il‐1β (rIl‐1β) protein was capable of inducing sil‐1rI mRNA under the concentration of 100 ng ml^?1, suggesting that high dosage or excess Il‐1β would stimulate the expression of sil‐1rI to maintain the homoeostasis of E. coioides Il‐1 system. For the first time, the role of teleost Il‐1rI in parasite infection has been identified, and soluble Il‐1r was found in fish.     

Variable alteration of regional tissue oxygen pressure in rat hippocampus by acute swimming exercise

One of the events in the brain is an increasing cerebral blood flow during exercise. The tissue oxygen level may be increased because blood flow correlates with tissue oxygen level. However, it is little known whether the tissue oxygen pressure in hippocampal region (Hip-pO₂) will be affected by exercise.     

Adipose‐derived mesenchymal stem cells and regenerative medicine

Adipose tissue‐derived mesenchymal stem cells (ADSCs) are multipotent and can differentiate into various cell types, including osteocytes, adipocytes, neural cells, vascular endothelial cells, cardiomyocytes, pancreatic β‐cells, and hepatocytes. Compared with the extraction of other stem cells such as bone marrow‐derived mesenchymal stem cells (BMSCs), that of ADSCs requires minimally invasive techniques. In the field of regenerative medicine, the use of autologous cells is preferable to embryonic stem cells or induced pluripotent stem cells. Therefore, ADSCs are a useful resource for drug screening and regenerative medicine. Here we present the methods and mechanisms underlying the induction of multilineage cells from ADSCs.     

Biomimetic injectable HUVEC‐adipocytes/collagen/alginate microsphere co‐cultures for adipose tissue engineering

Engineering adipose tissue that has the ability to engraft and establish a vascular supply is a laudable goal that has broad clinical relevance, particularly for tissue reconstruction. In this article, we developed novel microtissues from surface‐coated adipocyte/collagen/alginate microspheres and human umbilical vein endothelial cells (HUVECs) co‐cultures that resembled the components and structure of natural adipose tissue. Firstly, collagen/alginate hydrogel microspheres embedded with viable adipocytes were obtained to mimic fat lobules. Secondly, collagen fibrils were allowed to self‐assemble on the surface of the microspheres to mimic collagen fibrils surrounding the fat lobules in the natural adipose tissue and facilitate HUVEC attachment and co‐cultures formation. Thirdly, the channels formed by the gap among the microspheres served as the room for in vitro prevascularization and in vivo blood vessel development. The endothelial cell layer outside the microspheres was a starting point of rapid vascular ingrowth. Adipose tissue formation was analyzed for 12 weeks at 4‐week intervals by subcutaneous injection into the head of node mice. The vasculature in the regenerated tissue showed functional anastomosis with host blood vessels. Long‐term stability of volume and weight of the injection was observed, indicating that the vasculature formed within the constructs benefited the formation, maturity, and maintenance of adipose tissue. This study provides a microsurgical method for adipose regeneration and construction of biomimetic model for drug screening studies. Biotechnol. Bioeng. 2013; 110: 1430–1443. © 2012 Wiley Periodicals, Inc.     

Micropatterned polyelectrolyte nanofilms promote alignment and myogenic differentiation of C2C12 cells in standard growth media

Alignment of skeletal myoblasts is considered a critical step during myotube formation. The C2C12 cell line is frequently used as a model of skeletal muscle differentiation that can be induced by lowering the serum concentration in standard culture flasks. In order to mimic the striated architectures of skeletal muscles in vitro, micro‐patterning techniques and surface engineering have been proven as useful approaches for promoting elongation and alignment of C2C12 myoblasts, thereby enhancing the outgrowth of multi‐nucleated myotubes upon switching from growth media (GM) to differentiative media (DM). Herein, a layer‐by‐layer (LbL) polyelectrolyte multilayer deposition was combined with a micro‐molding in capillaries (MIMIC) method to simultaneously provide biochemical and geometrical instructive cues that induced the formation of tightly apposed and parallel arrays of differentiating myotubes from C2C12 cells maintained in GM media for 15 days. This study focuses on two different types of patterned/self‐assembled nanofilms based on alternated layers of poly (allylamine hydrochloride) (PAH)/poly(sodium 4‐styrene‐sulfonate) (PSS) as biocompatible but not biodegradable polymeric structures, or poly‐L ‐arginine sulfate salt (pARG)/dextran sulfate sodium salt (DXS) as both biocompatible and biodegradable surfaces. The influence of these microstructures as well as of the nanofilm composition on C2C12 skeletal muscle cells' differentiation and viability was evaluated and quantified, pointing to give a reference for skeletal muscle regenerative potential in culture conditions that do not promote it. At this regard, our results validate PEM microstructured devices, to a greater extent for (PAH/PSS)₅‐coated microgrooves, as biocompatible and innovative tools for tissue engineering applications and molecular dissection of events controlling C2C12 skeletal muscle regeneration without switching to their optimal differentiative culture media in vitro. Biotechnol. Bioeng. 2013; 110: 586–596. © 2012 Wiley Periodicals, Inc.