Gene editing and its applications in biomedicine

Science China Life Sciences - The steady progress in genome editing, especially genome editing based on the use of clustered regularly interspaced short palindromic repeats (CRISPR) and...     

Bio-silica and bio-polyphosphate: applications in biomedicine (bone formation)

Bio-silica represents the main mineral component of the sponge skeletal elements (siliceous spicules), while bio-polyphosphate (bio-polyP), a multifunctional polymer existing in microorganisms and animals acts, among others, as reinforcement for pores in cell membranes. These natural inorganic bio-polymers, which can be readily prepared, either by recombinant enzymes (bio-silica and bio-polyP) or chemically (polyP), are promising materials/substances for the amelioration and/or treatment of human bone diseases and dysfunctions. It has been demonstrated that bio-silica causes in vitro a differential effect on the expression of the genes OPG and RANKL, encoding two mediators that control the tuned interaction of the anabolic (osteoblasts) and catabolic (osteoclasts) pathways in human bone cells. Since bio-silica and bio-polyP also induce the expression of the key mediator BMP2 which directs the differentiation of bone-forming progenitor cells to mature osteoblasts and in parallel inhibits the function of osteoclasts, they are promising candidates for treatment of osteoporosis.     

Potential applications of biosurfactant rhamnolipids in agriculture and biomedicine

Rhamnolipids have recently emerged as promising bioactive molecules due to their novel structures, diverse and versatile biological functions, lower toxicity, higher biodegradability, as well as production from renewable resources. The advantages of rhamnolipids make them attractive targets for research in a wide variety of applications. Especially rhamnolipids are likely to possess potential applications of the future in areas such as biomedicine, therapeutics, and agriculture. The purpose of this mini review is to provide a comprehensive prospective of biosurfactant rhamnolipids as potential antimicrobials, immune modulators, and virulence factors, and anticancer agents in the field of biomedicine and agriculture that may meet the ever-increasing future pharmacological treatment and food safety needs in human health.

     

Ethical aspects of cryobiology: responsible applications in biomedicine and in clinical practice

This paper focuses on ethical issues in applications of cryobiology to humans, more particularly in the field of human reproduction and cryosurgery. The paper also provides essential ingredients for the interface of bioethics and cryobiology. For instance, since the 1970s bioethicists have developed four principles to guide the moral evaluation of the 'new medicine.' These are: respect for persons, non-maleficence, beneficence, and justice. In the field of human reproduction major progress was made by the cryopreservation of reproductive material. Still, ethical issues arise whenever partnerships cease to exist (death) or deteriorate (divorce), and decisions have to be made about the disposition of frozen gametes and embryos. Policy-making becomes, then, a prime concern. Examples of regulation in the United States of America, in the United Kingdom, and across Europe are being offered. Cryosurgery remains a field where cryobiologists struggle in their quest for an optimal technique, thus illustrating the need for assessment of safety, efficacy, and benefit to patients. Increasingly, cryobiologists have been joining in the ethical reflection on the use of cryo-technologies. They may further do so by perfecting their ability to identify ethical aspects, by analysing the norms and values at stake, by learning the skill of making the appropriate choices, and by showing their willingness to justify the choices made be it in the inner circle of pairs or publicly.     

Trace metal imaging with high spatial resolution: applications in biomedicine

New generations of analytical techniques for imaging of metals are pushing hitherto boundaries of spatial resolution and quantitative analysis in biology. Because of this, the application of these imaging techniques described herein to the study of the organization and dynamics of metal cations and metal-containing biomolecules in biological cell and tissue is becoming an important issue in biomedical research. In the current review, three common metal imaging techniques in biomedical research are introduced, including synchrotron X-ray fluorescence (SXRF) microscopy, secondary ion mass spectrometry (SIMS), and laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). These are exemplified by a demonstration of the dopamine-Fe complexes, by assessment of boron distribution in a boron neutron capture therapy cell model, by mapping Cu and Zn in human brain cancer and a rat brain tumor model, and by the analysis of metal topography within neuromelanin. These studies have provided solid evidence that demonstrates that the sensitivity, spatial resolution, specificity, and quantification ability of metal imaging techniques is suitable and highly desirable for biomedical research. Moreover, these novel studies on the nanometre scale (e.g., of individual single cells or cell organelles) will lead to a better understanding of metal processes in cells and tissues.     

Sulfonated amphipols: synthesis, properties, and applications

Amphipols (APols) are amphiphatic polymers that keep membrane proteins (MPs) water-soluble. The best characterized and most widely used APol to date, A8-35, comprises a polyacrylate backbone grafted with octyl- and isopropylamine side chains. The nature of its hydrophilic moieties prevents its use at the slightly acidic pH that is desirable to slow down the rate of amide proton exchange in solution NMR studies. We describe here the synthesis and properties of pH-insensitive APols obtained by replacing isopropyles with taurine. Sulfonated APols (SAPols) can be used to trap MPs in the form of small complexes, to stabilize them, and to keep them water-soluble even at low pH. [(15) N,(1) H]-transverse relaxation-optimized spectroscopy NMR spectra obtained at pH 6.8 of a bacterial outer MP folded in SAPols show that the protein is correctly folded. The spectra have a resolution similar to that achieved with A8-35 and reveal water-exposed amide and indole protons whose resonance peaks are absent at pH 8.0.     

Rapid eco-friendly synthesis,characterization, and cytotoxic study of trimetallic stable nanomedicine: A potential material for biomedical applications

In the current scenario of the fight against cancer Integration of potential elements seems to be the best alternative since it overcomes the weaknesses of individuals and the combination of elements makes them formidable in the fight against the cancer war. Inspired by this objective and trusting our knowledge of paddy straw grown oyster mushroom, Pleurotus florida (Pf) mediated synthesis; a first-of-kind approach has been developed for the rapid synthesis of Au–Pt–Ag trimetallic nanoparticles (TMNPs). The developed method was successful, which was confirmed by Ultraviolet–Visible, X-ray diffraction, Transmission Electron Microscopy, Energy Dispersive Spectroscopy. Specifically, prepared TMNPs have been studied for their stability and size as a primary prerequisite for nanomedicine. Finally, the stable nanomedicine developed has been assessed for its performance against the highly metastatic breast cancer cell line (mda-mb-231). The performance was assessed using MTT assay and morphological readings, which were integrated with the cell viability data. We also determined the IC50 value, which was far superior to individual components and motivated us to postulate the possible breast cancer cell killing mechanism of TMNPs. The present study unlocks the new paths for the mushroom-mediated environmentally friendly, economic synthesis of trimetallic nanoparticles, which can be effectively used in cancer nanomedicine.     

多重示踪技术在植物学研究中的应用

简要阐述了多重示踪技术在植物学研究中的应用，主要内容有多重示踪剂的制备和分离，检测植物对金属离子的吸收和在体内的分布状况，以及在植物体细胞胚发生中对金属离子吸收的动态变化。     

Stable isotopes and elasmobranchs: tissue types, methods, applications and assumptions

Stable-isotope analysis (SIA) can act as a powerful ecological tracer with which to examine diet, trophic position and movement, as well as more complex questions pertaining to community dynamics and feeding strategies or behaviour among aquatic organisms. With major advances in the understanding of the methodological approaches and assumptions of SIA through dedicated experimental work in the broader literature coupled with the inherent difficulty of studying typically large, highly mobile marine predators, SIA is increasingly being used to investigate the ecology of elasmobranchs (sharks, skates and rays). Here, the current state of SIA in elasmobranchs is reviewed, focusing on available tissues for analysis, methodological issues relating to the effects of lipid extraction and urea, the experimental dynamics of isotopic incorporation, diet-tissue discrimination factors, estimating trophic position, diet and mixing models and individual specialization and niche-width analyses. These areas are discussed in terms of assumptions made when applying SIA to the study of elasmobranch ecology and the requirement that investigators standardize analytical approaches. Recommendations are made for future SIA experimental work that would improve understanding of stable-isotope dynamics and advance their application in the study of sharks, skates and rays.     

自组装ELP多肽的从头设计及其在生物医药领域中的应用进展

重组类弹性蛋白多肽(elastin-like polypeptides,ELPs)是一种通过基因工程方法合成的多肽聚合物,其结构由类弹性蛋白的肽段单元重复串连组成,具有刺激响应性、自组装特性、显著的弹性和良好的生物学特性,如低血小板黏附性和低免疫原性等,因此ELPs材料已被广泛应用于组织工程、药物输送和纳米生物器件制备...     

Monoclonal antibody technology: applications in veterinary science

Monoclonal antibodies have revolutionised the study of animals and their diseases. The author looks at the detection of antigen in samples using a range of techniques from indirect fluorescence, through in-situ hybridization to enzyme linked immunosorbent assays. Examples are given of how Salmonella species, mastitis antigens, viral antigens, chlamydial organisms and E. coli toxins can be detected using specific monoclonal antibodies. The recognition of antigen in tissues by monoclonal antibodies is also discussed using as examples; the vitamin biotin, the chicken anemia virus, the growth promoter clenbuterol and the bovine lymphokine, gamma interferon. The ability of monoclonal antibodies to measure specific antibody is also discussed, with particular reference to chicken anemia agent. The review concludes with a discussion of the ability of monoclonal antibody based ELISAs to discriminate between pigs naturally infected with Aujeszky's disease and those vaccinated against the condition.     

l-Amino acid oxidases from microbial sources: types,properties, functions,and applications

l-Amino acid oxidases (LAAOs), which catalyze the stereospecific oxidative deamination of l-amino acids to α-keto acids and ammonia, are flavin adenine dinucleotide-containing homodimeric proteins. l-Amino acid oxidases are widely distributed in diverse organisms and have a range of properties. Because expressing LAAOs as recombinant proteins in heterologous hosts is difficult, their biotechnological applications have not been thoroughly advanced. LAAOs are thought to contribute to amino acid catabolism, enhance iron acquisition, display antimicrobial activity, and catalyze keto acid production, among other roles. Here, we review the types, properties, structures, biological functions, heterologous expression, and applications of LAAOs obtained from microbial sources. We expect this review to increase interest in LAAO studies.     

Guggullipid derivatives: synthesis and applications

Two guggullipid derivatives, Z-guggulsulfate [4,17(20)-pregnadiene-3-one-16β-sulfate] sodium salt and Z-guggullaurate [4,17(20)-pregnadiene-3-one-16β-laurate], have been synthesized and evaluated for liposomal drug delivery system. Its precursor, Z-guggulsterol [4,17(20)-pregnadiene-3-one-16β-ol], is also synthesized in gram scale starting from guggulsterone using the novel combination of known reactions in fewer steps and with higher yield than previously reported synthesis. These new synthetic guggullipid derivatives were also used in the preparation of liposomes. This new class of lipid molecules will be a useful tool in the development of nanosomal or liposomal drug delivery system.     

Peptide dendrimers: applications and synthesis

Peptide dendrimers are radial or wedge-like branched macromolecules consisting of a peptidyl branching core and/or covalently attached surface functional units. The multimeric nature of these constructs, the unambiguous composition and ease of production make this type of dendrimer well suited to various biotechnological and biochemical applications. Applications include use as biomedical diagnostic reagents, protein mimetics, anticancer and antiviral agents, vaccines and drug and gene delivery vehicles. This review focuses on the different types of peptide dendrimers currently in use and the synthetic methods commonly employed to generate peptide dendrimers ranging from stepwise solid-phase synthesis to chemoselective and orthogonal ligation.