阳离子胶体金标记活细胞阴离子位点的双光子荧光成像及其应用

使用阳离子胶体金标记中国仓鼠卵巢细胞(CHO-K1)的阴离子位点,并采用双光子荧光显微成像和荧光寿命成像技术记录活细胞的阴离子场分布.阳离子胶体金是纳米量级金微粒与多聚L-赖氨酸的结合物,金纳米微粒在超短激光脉冲的照射下可以产生高度局域化的光热效应.当飞秒激光脉冲聚焦在细胞膜上标记的金纳米微粒时会产生这种纳米尺度的微光热效应,并在不影响细胞活性的前提下暂时提高细胞膜的通透性.基于这种效应,使用聚焦的飞秒激光脉冲三维扫描照射CHO-K1细胞,将分子质量为10ku的荧光探针大分子异硫氰酸荧光素葡聚糖(fluorescein isothioeyanate-dextran, FITC-D)递送到CHO-K1细胞的内部,并用双光子荧光图像记录其递送的过程.使用流式细胞仪分析不同实验条件下FITC-D的转导率和细胞死亡率的关系.     

近场扫描光学成像结合量子点标记的纳米技术在细胞生物学中的应用

近场扫描光学显微镜（NSOM）对传统的光学分辨极限产生了革命性的突破,可在超高光学分辨率下无侵人性和无破坏性地对生物样品进行观测。量子点（QDs）具有极好的光学性能,如荧光寿命长、激发谱宽、生物相容性强、光稳定性好等优点,适合先进的生物成像。NSOM结合QDs标记的纳米技术被应用在细胞生物学中。通过纳米量级NSOM免疫荧光成像（50nm）对特定蛋白分子在细胞表面的动态分布进行可视化研究和数量化分析,阐明了蛋白分子在不同细胞过程中的作用机制。因此,NSOM／QD基成像系统提供了单个蛋白分子最高分辨率的荧光图像,为可视化研究蛋白分子机制的提供了一种强有力的工具。     

荧光相关谱测量技术研究

荧光相关谱(fluorescence correlation spectroscopy,FCS)是对处于热平衡态条件下的荧光分子发出的荧光强度涨落进行时间相关处理的一种单分子检测方法,能够直接测量分子在溶液里的扩散系数和浓度.影响FCS测量扩散系数准确性的因素有分子量子效率,测量时间,样本折射率和温度偏差等.用FCS分别测量溶有荧光染料罗丹明6G(rhodamine 6G,Rh.6G)和青色素Cy5甘油水溶液的粘滞系数,实验结果表明:荧光分子的量子效率是影响测量准确性的重要因素,要求其每秒发射的光子数目(photon counts per second,cps)至少达到1 000(photons/s).     

PALM成像中激光强度和定位精度相关性的研究

近十年来,基于单分子定位的PALM成像技术快速发展,将显微镜的分辨率提高到了2-25nm。本文发现PALM成像过程中采用的激发光强度与成像的定位精度之间有密切的联系。我们分别选择了PALM成像使用的光激活荧光蛋白、光转换荧光蛋白和光开关荧光蛋白中最常用的荧光蛋白进行验证。实验发现伴随激光强度的增加,大部分荧光蛋白的光子数先升高然后趋于饱和,背景噪声几乎线性升高。进一步分析发现荧光蛋白的定位误差随着激光强度增强先降低后升高,因此选用合适的激光强度在PALM成像实验中至关重要。如何提高PALM成像的分辨率一直是科学家研究的热点,本研究内容可以指导研究人员在PALM成像中选用合适的激发光强度,从而得到高分辨率的图像。     

飞秒激光与生物细胞作用机理及应用

飞秒激光是自1960年第一台激光器诞生以来,过去20年间由激光科学发展起来的最强有力的新工具之一。飞秒激光由于脉冲持续时间短、瞬时功率大、聚焦尺寸小的特点,使得其在超快、超强和超精细领域有着广阔的应用前景。其中最重要的一个方向是飞秒激光在生物细胞方面的应用。细胞是生命活动的基本单位。所有的病源微观上都体现在细胞中细胞器的工作,所以用飞秒激光作用在病体的细胞器上达到治疗的目的,是一个很有前景的领域。由于生物大分子和水几乎不吸收近红外光,故应用近红外飞秒激光对细胞进行手术,同时可在不损伤细胞活性的前提下对细胞进行实验。这种激光手术技术已被用于对细胞内结构进行切割和蚀除。介绍了该技术在细胞领域中的一些应用,如纳米手术、基因转染和染色体切割等;还介绍了飞秒激光技术与生物细胞中主要细胞器的祛除的原理、飞秒激光细胞操作与手术系统和实验中荧光成像、多光子成像显微镜等手段。     

《自然-通讯》：活细胞荧光成像新技术问世

近日来自法国让o皮埃尔o埃贝尔结构生物学研究所的研究人员领导的一个国际研究小组报告称他们设计出了一种新型的荧光蛋白分子。相比于目前采用的荧光蛋白。新荧光分子可在活细胞中发射亮度高3倍的蓝绿色光,大大提高了细胞成像技术的敏感性,从而可以帮助实现更高分辨率的活体内生物过程成像。这一研究成果在线发布在3月20日的《自然一通讯》（Nature Communications）杂志上。     

生物单分子光学探测方法的进展

活细胞中单分子的实时显视是单分子生物学的关键技术,本文针对单分子显视的光学方法做了评述。分别描述了共焦荧光显微术、荧光全内反射显微术以及荧光共振能量转移探测的技术细节,分析了这些技术对于单分子探测所具备的优势和不足。并对单分子方法的未来发展给出预测。指出包括原于力在内的各种探测手段的联合使用和创新荧光染料技术是进一步提高分辨率的突破口。而随着高灵敏和低噪音探测器的发展,各种新方法的出现也有可能突破目前荧光染料尺度给予的分辨极限。     

生物光子成像专题序言

本专题刊由八篇有关生物组织光学成像方面的邀稿 (Invited papers)及一些常规文章组成。近年来 ,在高散射介质中 (尤其在生物组织中 )光输运问题被越来越广泛和深入的研究。这些研究可以开发一些新的无损而又廉价的医学光学成像技术。光学成像因其可以提供生理学功能型的医学影像 ,而引起学术界广泛的关注。光学成像主要包括漫射光断层成像、相干光断层成像 (OCT)、早到光子技术、超声调制技术、磁光调制技术、偏振调制技术、漫射光断层成像等等方面。另一方面 ,荧光标记成像、单分子探测等等手段 ,拓展了研究范围 ,提供了更多的处理方法…     

BK通道在细胞膜上的单分子定位及空间分布

目的：研究大电导、钙离子和电压激活的钾离子通道（BK通道）在HEK293细胞膜上的单分子定位及其总体空间分布情况。方法：分别用mEos2、Dronpa等荧光蛋白标记BK通道的α亚基和辅助性β2亚基,将这些质粒在HEK293细胞内瞬时转染以表达通道蛋白,然后用激光共聚焦荧光显微成像、全内反射荧光显微成像、光敏定位荧光成像等技术观察BK通道的亚细胞定位及单分子分布,并用电生理实验技术检测荧光蛋白对BK通道有影响。结果：激光共聚焦荧光显微成像和全内反射荧光显微成像技术只能在亚细胞水平定位通道蛋白,BK通道在细胞膜上聚集并形成不规则的蛋白簇,它的仅亚基和β2亚基在细胞膜上完全共定位;光敏定位荧光成像技术成功定位BK通道蛋白簇里面的单分子,虽然α和β2亚基紧紧靠在一起,它们之间依然存在空间距离;BK通道的质膜表达和功能特性不受荧光蛋白的影响。结论：BK通道蛋白簇里面包含大量的α和β2亚基的蛋白单分子,它们紧密地聚集在一起,但是并没有完全共定位,在分子水平上揭示了BK通道α和p亚基功能耦合的结构基础,为以后研究大分子蛋白质间的相互作用机制提供了很好的分子模型,光敏定位荧光成像技术作为一种全新的单分子荧光成像手段,在基因表达、信号通路、蛋白质相互作用等许多重要生命活动的研究中发挥重要作用。     

编者按

生物光子学是近几年来迅速崛起的一门生物物理学新技术, 它通过生物光子与物质的相互作用, 以图像的方式提供生物组织、细胞、分子的结构和功能信息。在医学无损伤诊断、细胞内分子过程的探测和脑功能成像方面,展示了良好的应用前景。本期刊登的王进军、王毅和屈军乐等的三篇论文反映了生物光子学研究在我国的兴起。王进军等应用荧光共振能量转移（简称FRET）研究了活细胞内蛋白激酶RKA活性的时空变化; 屈军乐等介绍了一种新型光学相干层析成像技术,并用它得到了视网膜上单个锥状细胞的图像; 王毅等则报道了一种新的研究生物组织结构的光声成像方法。我们希望,这三篇论文的发表能激起读者对生物光子成像技术的兴趣,并使这一技术在生命科学研究中受到更多的 关注。     

草菇热激蛋白60基因(Vvhsp60)生物信息学分析及低温下的表达

【背景】生物受到温度胁迫时,热激蛋白被诱导并在短时间内大量产生,可以使受损的蛋白质恢复正常构象,增强生物对逆境胁迫的耐受性。【目的】初步探究草菇热激蛋白60(Vvhsp60)与低温耐受性的关系,为深入开展草菇不耐低温特性的遗传改良奠定理论基础。【方法】对Vvhsp60进行生物信息学分析,以低温敏感型草菇菌株V23及耐低温菌株VH3为实验材料,利用实时荧光定量PCR技术分析低温胁迫及热激诱导后在低温下草菇菌丝体中Vvhsp60基因的表达水平。【结果】草菇Vvhsp60编码蛋白不存在信号肽,不属于分泌蛋白,在线粒体和细胞质内发挥生物学作用,属于双向跨膜蛋白。低温处理显著提高了V23与VH3菌丝体中Vvhsp60基因的表达量,而且VH3中的表达量显著高于V23,推测Vvhsp60基因的表达量高可能有助于增强草菇对低温胁迫的耐受性。经热激处理后两菌株Vvhsp60基因的表达量显著高于各自未热激处理的对照组,表明热激处理可诱导Vvhsp60基因的表达。【结论】Vvhsp60与草菇低温耐受性相关,并且热激可以诱导Vvhsp60基因的表达。     

A strategy for single nucleotide polymorphism analysis of chimerism for somatic cell therapy

Background aimsChimerism is an important outcome measure in hematopoietic cell transplantation as well as somatic cell therapy. Commonly used methods to estimate chimerism are restricted by either gender or inefficient sensitivity. In principle, real-time polymerase chain reaction (PCR)-based assays can be used to assess single nucleotide polymorphisms (SNP), which are a vast resource of molecular markers, and such assays demonstrate a substantially higher sensitivity (0.001%), but the specificity is unclear because of a low-level signal from mismatched sequences.MethodsIn this study, we cloned 14 pairs of SNP selected from the SNP HapMap database and examined the specificity and sensitivity of their detection by real-time PCR using two primer/fluorescent probe pairs to allow genotyping of the two possible variant alleles. Clinical donor–recipient pairs from 18 families were used to explore the efficacy of using SNP assays to measure chimerism.ResultsWe found that the polymorphic nucleotide influences the ability to distinguish the signal generated by the target and mismatched sequences. Moreover, the specific fluorescent reporter probe can affect the difference in signal intensity between the target and mismatched sequences. Real-time PCR SNP assays can attain a sensitivity of 0.1–0.5% with 100% specificity. When comparing possible clinical donor–recipient pairs, we found an average 3.3 out of 14 SNP were informative.ConclusionsBy optimal selection of the polymorphic sequences and fluorescent reporter, the real-time PCR SNP assay is superior to the short-tandem repeat chimerism assay and broadly applicable. This strategy may be applied in future clinical trials of bone marrow cell therapy.     

Cd24a和前列腺素代谢相关酶在PCOS小鼠模型卵巢颗粒细胞中表达水平的实验研究

目的:探讨Cd24a分子和前列腺素代谢相关酶在多囊卵巢综合征(polycystic ovary syndrome, PCOS)小鼠模型卵巢颗粒细胞中的表达水平。方法:取20只雌性C57BL/6小鼠,随机分为对照组(正常小鼠)和实验组(应用脱氢表雄酮建立PCOS小鼠模型),每组各10只。对照组小鼠于颈背部连续皮下注射20天芝麻油溶液(0.1 m L/100 g)。实验组应用脱氢表雄酮(6 mg/100 g)联合芝麻油溶液(0.1 m L/100 g)连续颈背部皮下注射20天。经苏木精-伊红染色观察两组小鼠卵巢组织病理学改变。应用实时荧光定量PCR法对小鼠卵巢颗粒细胞中Cd24a分子和前列腺素代谢相关酶m RNA表达量进行检测。结果:实验组体重显著高于对照组(P0.05);实验组小鼠卵巢呈多囊样改变,卵泡中颗粒细胞数量减少,闭锁卵泡增多,闭锁卵泡直径明显大于对照组;实验组Cd24a分子和前列腺素代谢相关酶m RNA表达量较对照组存在显著差异(P0.05)。结论:PCOS小鼠卵巢颗粒细胞中Cd24a分子和前列腺素代谢相关酶表达量异常,提示Cd24a分子可能与PCOS疾病发生相关。     

A general enhancement scheme in heteronuclear multidimensional NMR employing pulsed field gradients

Summary General pulse sequence elements that achieve sensitivity-enhanced coherence transfer from a heteronucleus to protons of arbitrary multiplicity are introduced. The building blocks are derived from the sensitivity-enhancement scheme introduced by Cavanagh et al. ((1991) J. Magn. Reson., 91, 429–436), which was used in conjunction with gradient coherence selection by Kay et al. ((1992) J. Am. Chem. Soc., 114, 10663–10665), as well as from a multiple-pulse sequence effecting a heteronuclear planar coupling Hamiltonian. The building blocks are incorporated into heteronuclear correlation experiments, in conjunction with coherence selection by the formation of a heteronuclear gradient echo. This allows for efficient water suppression without the need for water presaturation. The methods are demonstrated in HSQC-type experiments on a sample of a decapeptide in H₂O. The novel pulse sequence elements can be incorporated into multidimensional experiments.     

Assignment of cytosine N3 resonances in nucleic acids via intrabase three-bond coupling to amino protons

Coherences were observed between ¹⁵N3 of cytosine and its trans amino proton (H42) using a modified gradient-based heteronuclear single quantum coherence (HSQC) pulse sequence optimized for three-bond proton-nitrogen couplings. The method is demonstrated with a 22-nucleotide RNA fragment of the P5abc region of a group I intron uniformly labeled with ¹⁵N. Use of intraresidue ¹⁵ N3-amino proton couplings to assign cytosine ¹⁵ N3 signals complements the recently proposed J_NN HNN COSY [Dingley, A.J. and Grzesiek, S. (1998) J. Am. Chem. Soc., 120, 8293–8297] method of identifying hydrogen-bonded base pairs in RNA.     

Conserved amino acid networks involved in antibody variable domain interactions

Engineered antibodies are a large and growing class of protein therapeutics comprising both marketed products and many molecules in clinical trials in various disease indications. We investigated naturally conserved networks of amino acids that support antibody V_H and V_L function, with the goal of generating information to assist in the engineering of robust antibody or antibody‐like therapeutics. We generated a large and diverse sequence alignment of V‐class Ig‐folds, of which V_H and V_L domains are family members. To identify conserved amino acid networks, covariations between residues at all possible position pairs were quantified as correlation coefficients (?‐values). We provide rosters of the key conserved amino acid pairs in antibody V_H and V_L domains, for reference and use by the antibody research community. The majority of the most strongly conserved amino acid pairs in V_H and V_L are at or adjacent to the V_H–V_L interface suggesting that the ability to heterodimerize is a constraining feature of antibody evolution. For the V_H domain, but not the V_L domain, residue pairs at the variable‐constant domain interface (V_H–C_H1 interface) are also strongly conserved. The same network of conserved V_H positions involved in interactions with both the V_L and C_H1 domains is found in camelid V_HH domains, which have evolved to lack interactions with V_L and C_H1 domains in their mature structures; however, the amino acids at these positions are different, reflecting their different function. Overall, the data describe naturally occurring amino acid networks in antibody Fv regions that can be referenced when designing antibodies or antibody‐like fragments with the goal of improving their biophysical properties. Proteins 2009. © 2008 Wiley‐Liss, Inc.     

Effect of a fluctuating thermal regime on adult and larval reef corals

Abstract. We compared responses of adults and larvae of the brooding corals Pocillopora damicornis and Seriatopora hystrix to 12-h exposures to constant temperature treatments (21°C, 28°C, or 30°C) and a treatment in which temperature fluctuated from 28° to 21°C, simulating daily temperature variation generated by tidally driven upwelling in their natural habitat (Nanwan Bay, southern Taiwan). In all treatments, the maximum dark-adapted quantum yield of photosystem II (F_V/F_M) of the larvae was ∼49% lower than that of adult corals; F_V/F_M in the larvae also differed among temperature treatments, with the highest values in the fluctuating treatment. These results show that the larvae of at least P. damicornis are more sensitive to temperature than adults, and suggest that larvae are physiologically well suited to fluctuating temperature regimes. To assess whether the timing of larval release affected their performance, larvae of P. damicornis were compared among release days within a single reproductive event. Groups of larvae released on nine consecutive days differed significantly in size, Symbiodinium content, and F_V/F_M. This demonstration of functional differences among coral larvae that are released on different dates within a single reproductive event creates the potential for advantages to accrue from the coincidence of larval phenotypes with temporally varying conditions. Adult colonies may experience selective advantages by producing broods of functionally variable larvae, in order to match extreme phenotypes to unusual environmental conditions.     

Fluorescence microscopy for visualizing single-molecule protein dynamics

BackgroundSingle-molecule fluorescence imaging (smFI) has evolved into a valuable method used in biophysical and biochemical studies as it can observe the real-time behavior of individual protein molecules, enabling understanding of their detailed dynamic features. smFI is also closely related to other state-of-the-art microscopic methods, optics, and nanomaterials in that smFI and these technologies have developed synergistically.Scope of reviewThis paper provides an overview of the recently developed single-molecule fluorescence microscopy methods, focusing on critical techniques employed in higher-precision measurements in vitro and fluorescent nanodiamond, an emerging promising fluorophore that will improve single-molecule fluorescence microscopy.Major conclusionssmFI will continue to improve regarding the photostability of fluorophores and will develop via combination with other techniques based on nanofabrication, single-molecule manipulation, and so on.General significanceQuantitative, high-resolution single-molecule studies will help establish an understanding of protein dynamics and complex biomolecular systems.     

Multiphoton microscopy for the in-situ investigation of cellular processes and integrity in cryopreservation

In this study we demonstrate a new noninvasive imaging method to monitor freezing processes in biological samples and to investigate life in the frozen state. It combines a laser scanning microscope with a computer-controlled cryostage. Nearinfrared (NIR) femtosecond laser pulses evoke the fluorescence of endogenous fluorophores and fluorescent labels due to multiphoton absorption.The inherent optical nonlinearity of multiphoton absorption allows 3D fluorescence imaging for optical tomography of frozen biological material in-situ. As an example for functional imaging we use fluorescence lifetime imaging (FLIM) to create images with chemical and physical contrast.     

Dual‐function fluorescent probe for cancer imaging and therapy

To date, several fluorescent probes modified by a single targeting agent have been explored. However, studies on the preparation of dual‐function quantum dot (QD) fluorescent probes with dual‐targeting action and a therapeutic effect are rare. Here, a dual‐targeting CdTe/CdS QD fluorescent probe with a bovine serum albumin–glycyrrhetinic acid conjugate and arginine‐glycine‐aspartic acid was successfully prepared that could induce the apoptosis of liver cancer cells and showed enhanced targeting in in vitro cell imaging. Therefore, the as‐prepared fluorescent probe in this work is an efficient diagnostic tool for the simultaneous detection of liver cancer and breast cancer cells. Copyright © 2015 John Wiley & Sons, Ltd.