The interface of a membrane-spanning leucine zipper mapped by asparagine-scanning mutagenesis

An oligo-leucine sequence has previously been shown to function as an artificial transmembrane segment that efficiently self-assembles in membranes and in detergent solution. Here, a novel technique, asparagine-scanning mutagenesis, was applied to probe the interface of the self-assembled oligo-leucine domain. This novel approach identifies interfacial residues whose exchange to asparagine leads to enhanced self-interaction of transmembrane helices by interhelical hydrogen bond formation. As analyzed by the ToxR system in membranes, the interface formed by the oligo-leucine domain is based on a leucine-zipper-like heptad repeat pattern of amino acids. In general, the strongest impacts on self-assembly were seen with asparagines located around the center of the sequence, indicating that interaction is be more efficient here than at the termini of the transmembrane domains.     

Accessibility of introduced cysteines in chemoreceptor transmembrane helices reveals boundaries interior to bracketing charged residues

Two hydrophobic sequences, 24 and 30 residues long, identify the membrane-spanning segments of chemoreceptor Trg from Escherichia coli. As in other related chemoreceptors, these helical sequences are longer than the minimum necessary for an alpha-helix to span the hydrocarbon region of a biological membrane. Thus, the specific positioning of the segments relative to the hydrophobic part of the membrane cannot be deduced from sequence alone. With the aim of defining the positioning for Trg experimentally, we determined accessibility of a hydrophilic sulfhydryl reagent to cysteines introduced at each position within and immediately outside the two hydrophobic sequences. For both sequences, there was a specific region of uniformly low accessibility, bracketed by regions of substantial accessibility. The two low-accessibility regions were each 19 residues long and were in register in the three-dimensional organization of the transmembrane domain deduced from independent data. None of the four hydrophobic-hydrophilic boundaries for these two membrane-embedded sequences occurred at a charged residue. Instead, they were displaced one to seven residues internal to the charged side chains bracketing the extended hydrophobic sequences. Many hydrophobic sequences, known or predicted to be membrane-spanning, are longer than the minimum necessary helical length, but precise membrane boundaries are known for very few. The cysteine-accessibility approach provides an experimental strategy for determining those boundaries that could be widely applicable.     

Transfer of small chromosome fragments of<Emphasis Type="Italic">Agropyron elongatum</Emphasis> to wheat chromosome via asymmetric somatic hybridization

The chromosome constitution of hybrids and chromatin patterns of Agropyron elongatum (Host)Neviski in F₅ somatic hybrid lines -1–3 and I-1-9 between Triticum aestivum L. and A. elongatum were analyzed. Based on the statistic data of pollen mother cells, F₅ I-1-9 and-1-3 had 20–21 bivalents with a frequency of 84.66% and 85.28%, of which, 89.83% and 89.57% were ring bivalents. The result indicated that both hybrid lines were basically stable in the chromosome constitution and behavior. RAPD analysis showed that the two hybrids contained biparental and integrated DNA. GISH (Genome in situ hybridization) revealed that in the form of small chromosome segments, A. elongatum chromatin was scattered on 4–6 wheat chromosomes near by the region of centromere and telomere in the two hybrid lines. SSR analysis indicated that A. elongatum DNA segments were distributed on the 2A, 5B, 6B and 2D wheat chromosomes in the hybrids, which was in accordance with the GISH results that small-segments intercalated poly-site.     

Variations in transmembrane Ca2+ gradient and apoptosis of macrophages induced by oxidized low density lipoprotein

While Ca²⁺ has been proposed to be a messenger in OxLDL-induced cell death, few studies have addressed the possibility that it may influence the occurrence of apoptosis and necrosis of macrophages induced by OxLDL in virtue of change of transmembrane Ca²⁺ gradient including that across plasma membrane and intracellular organelle membranes. In this paper, various lipophilic Ca²⁺ fluorescent indicators and specific organelle markers were used to study the relationship between the changes of the transmembrane Ca²⁺ gradients and the OxLDL induced apoptosis of macrophages. Our results showed that following exposure of low dose OxLDL to macrophages, the transmembrane Ca²⁺ gradient across the plasma membrane, as well as the membrane-proximal Ca²⁺ gradient, the transnuclear, and the transmitochondrial membrane Ca²⁺ gradient were all changed significantly. These data suggested that changes in transmembrane Ca²⁺ gradients might be involved in the apoptosis of macrophages induced by OxLDL.     

Assembly and plasma membrane targeting of recombinant immunoglobulin chains in plants with a murine immunoglobulin transmembrane sequence

The cDNA encoding a full-length murine immunoglobulin 1 heavy chain with its native leader sequence, transmembrane and intracellular domains was introduced into transgenic plants. Transformed plants expressed the recombinant polypeptide, but, in contrast to plants expressing the heavy chain without transmembrane sequence, the protein appeared to be associated with a plant cell membrane. Extraction of the membrane-associated heavy chain required the presence of a non-ionic detergent, and immunofluorescence studies of protoplasts demonstrated surface expression of membrane Ig heavy chain on up to 40% of the cells from a transgenic leaf. In plants expressing both the membrane Ig heavy chain and its partner light chain, functional antibody was also localised to the plant cell membrane and retention of the heavy chain at this site appeared to have no effect on the efficiency of antibody assembly. This approach of localising and accumulating recombinant antibody in cell membranes may have a number of applications, including passive immunisation against plant pathogens.     

Synthesis of amyloid β-peptides in solution employing chloroform-phenol mixed solvent for facile segment condensation of sparingly soluble protected peptides

Segment condensation reaction of sparingly soluble protected peptides proceeded smoothly in CHCl₃-phenol mixed solvent without danger of epimerization or of significant ester formationwith the carboxyl component when 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC) was employedin the presence of 3,4-dihydro-3-hydroxy-4-oxo-1,2,3-benzotriazine(HOOBt). The optimal conditions for enhancement of peptide coupling mediated by EDC/HOOBt in CHCl₃-phenol were determined and successfully applied to the synthesis of amyloid -peptide (1-42), (1-43) and [Pyr³]-(3-42). These peptides of high homogeneity were used to examine the relation between structure and amyloidogenesis by means of CD spectra andfluorimetric assay.     

The carboxy terminal C-tail of BNip3 is crucial in induction of mitochondrial permeability transition in isolated mitochondria

BNip3 is a member of Bcl-2 family proteins that displays proapoptotic activity. It contains Bcl-2 homology (BH) 3 and single carboxy terminal membrane-anchoring domain (TM), which targets to specific intracellular organelles, especially to mitochondria. Mitochondria play significant roles in apoptosis by releasing apoptogenic factors through large conductance channel known as permeability transition pore (PTP). Although BNip3 associates with mitochondria when overexpressed, apoptotic pathways including mitochondrial cascade and functional domains of BNip3 are still unknown. In this report, we demonstrate that recombinant BNip3 (rBNip3) induces mitochondrial permeability transition (MPT) and cytochrome c release from isolated mitochondria, which are inhibited by the PT inhibitor cyclosporin A (CsA). We further show that carboxy terminal tail of BNip3, but not BH3, is essential for the induction of PT and cytochrome c release on the base of mutational analysis. Moreover, addition of carboxy terminal c-tail to TM substitution mutant, which did not induce the PT and cytochrome c release, restored PT-inducing activity. Taken together, our results suggest that BNip3 exerts proapoptotic activity through PT induction and that carboxy terminal c-tail is crucial for it.     

Assembly of light-harvesting bacteriochlorophyll in a model transmembrane helix in its natural environment

The transmembrane, bacteriochlorophyll-binding region of a bacterial light-harvesting complex, (LH2-alpha from the photosynthetic bacterium Rhodobacter sphaeroides) was redesigned and overexpressed in a mutant of Rb. sphaeroides lacking LH2. Bacteriochlorophyll served as internal probe for the fitness of this new region for the assembly and energy transfer function of the LH2 complex. The ability to absorb and transfer light energy is practically undisturbed by the exchange of the transmembrane segment, valine -7 to threonine +6, of LH2-alpha with a 14 residue Ala-Leu sequence. This stretch makes up the residues of the transmembrane helix that are in close contact (< or =4.5 A) with the bacteriochlorophyll molecules that are coordinated through His of both the alpha and beta-subunits. In this Ala-Leu stretch, neither alpha-His0, which binds the bacteriochlorophyll, nor the adjacent alpha-Ile-1, were replaced. Novel LH2 complexes composed of LH2-alpha with a model transmembrane sequence and a normal LH2-beta are assembled in vivo into a complex, the biochemical and spectroscopic properties of which closely resemble the native one. In contrast, the additional insertion of four residues just outside the C-terminal end of the model transmembrane helix leads to complete loss of functional antenna complex. The results suggest that light energy can be harvested and transferred efficiently by bacteriochlorophyll molecules attached to only few key residues distributed over the polypeptide, while residues at the bacteriochlorophyll-helix interface seem to be largely dispensable for the functional assembly of this membrane protein complex. This novel antenna with a simplified transmembrane domain and a built-in probe for assembly and function provides a powerful model system for investigation of the factors that contribute to the assembly of chromophores in membrane-embedded proteins.     

黄秋葵组培快繁的研究

黄秋葵 (ＨｉｂｉｓｃｕｓｅｓｃｕｌｅｎｔｕｓＬ .)为锦葵科一年生草本植物 ,别名羊角豆、秋葵。原产非洲 ,欧美及东南亚热带地区广泛栽培 (马传先 ,1999;李正应 ,1993;翁文 ,1997;雪珍等 ,1999)。黄秋葵是一种营养保健型蔬菜 ,其花、叶、芽、果均可食用 ,种子富含油脂、蛋白质及钾、钙、铁、锌、锰等矿物质 ,晒干后既可用于提取油脂和蛋白质 ,还可作为咖啡的添加剂或代用品。花、种子和根均可入药 ,对恶疮、痛疖有疗效。黄秋葵的愈伤组织在一定条件下比较容易产生体细胞胚并再生成完整植株 ,故黄秋葵的组培快繁研究也可为胚胎学研究和人…     

Membrane potential and bicarbonate secretion in isolated interlobular ducts from guinea-pig pancreas

The interlobular duct cells of the guinea-pig pancreas secrete HCO(3)(-) across their luminal membrane into a HCO(3)(-)-rich (125 mM) luminal fluid against a sixfold concentration gradient. Since HCO(3)(-) transport cannot be achieved by luminal Cl-/HCO(3)(-) exchange under these conditions, we have investigated the possibility that it is mediated by an anion conductance. To determine whether the electrochemical potential gradient across the luminal membrane would favor HCO(3)(-) efflux, we have measured the intracellular potential (V(m)) in microperfused, interlobular duct segments under various physiological conditions. When the lumen was perfused with a 124 mM Cl- -25 mM HCO(3)(-) solution, a condition similar to the basal state, the resting potential was approximately -60 mV. Stimulation with dbcAMP or secretin caused a transient hyperpolarization (approximately 5 mV) due to activation of electrogenic Na+-HCO(3)(-) cotransport at the basolateral membrane. This was followed by depolarization to a steady-state value of approximately -50 mV as a result of anion efflux across the luminal membrane. Raising the luminal HCO(3)(-) concentration to 125 mM caused a hyperpolarization (approximately 10 mV) in both stimulated and unstimulated ducts. These results can be explained by a model in which the depolarizing effect of Cl- efflux across the luminal membrane is minimized by the depletion of intracellular Cl- and offset by the hyperpolarizing effects of Na+-HCO(3)(-) cotransport at the basolateral membrane. The net effect is a luminally directed electrochemical potential gradient for HCO(3)(-) that is sustained during maximal stimulation. Our calculations indicate that the electrodiffusive efflux of HCO(3)(-) to the lumen via CFTR, driven by this gradient, would be sufficient to fully account for the observed secretory flux of HCO(3)(-).