The detection of leghemoglobin-line sequences in legumes and non-legumes

Summary Leghemoglobin is a major component of the nitrogen-fixing nodules formed by legumes in association with bacterial symbionts of the genusRhizobium. It is thought to be involved in regulating the oxygen tension within nodules. In a series of Southern blot experiments using cloned soybean leghemoglobin cDNAs as hybridization probes, cross-hybridizing sequences have been detected in legumes closely related to soybean (members of the Leguminosae subfamily Papilionoideae), as well as in a distantly related legume not reported to be nodulated (subfamily Caesalpinioideae). With the same probes, the presence of cross-hybridizing sequences has also been detected in plants outside the Leguminosae, including two nitrogen-fixing non-legumes and one species which is not nodulated. These results suggest that the genes for oxygen-binding proteins may be more widely dispersed than previously thought.     

植物的血红蛋白

近几年来,植物血红蛋白的研究进展十分迅速,豆科植物中与共生固氮无关的血红蛋白基因和包括禾本科植物在内的许多非豆科植物血红蛋白基因的发现使人们对植物血红蛋白有了新的认识,进而把植物血红蛋白分为共生血红蛋白和非共生血红蛋白两种类型。对这两种血红蛋白的性质、功能、基因结构及表达等方面的研究不仅对共生固氮中植物与微生物的相互关系和固氮工程研究;而且对植物细胞的呼吸代谢和耐涝机理等研究有重要价值。     

Crystallographic analysis of synechocystis cyanoglobin reveals the structural changes accompanying ligand binding in a hexacoordinate hemoglobin

The crystal structures of cyanide and azide-bound forms of the truncated hemoglobin from Synechocystis are presented at 1.8 angstroms resolution. A comparison with the structure of the endogenously liganded protein reveals a conformational shift unprecedented in hemoglobins, and provides the first picture of a hexacoordinate hemoglobin in both the bis-histidyl and the exogenously coordinated states. The structural changes between the different conformations are confined to two regions of the protein; the B helix, and the E helix, including the EF loop. A molecular "hinge" controlling movement of the E helix is observed in the EF loop, which is composed of three principal structural elements: Arg64, the heme-d-propionate, and a three-residue extension of the F helix. Additional features of the structural transition between the two protein conformations are discussed as they relate to the complex ligand-binding behavior observed in hexacoordinate hemoglobins, and the potential physiological function of this class of proteins.     

The Sym31Gene Responsible for Bacteroid Differentiation Is Involved in Nitrate-Dependent Nodule Formation in Pea Plants

The effects of exogenous nitrate on the number of developing nodules and their leghemoglobin content in the original pea (Pisum sativumL.) line and its symbiotic mutants were studied. Mutation in the Sym31gene conferred the tolerance to nitrate in the corresponding pea line and manifested itself as the number of nodules independent of the nitrate concentration. Thus, the Sym31gene was identified as the only known symbiotic gene involved in both the differentiation of symbiotic compartments and the nitrate-dependent process of nodule formation. The presence of leghemoglobin in double mutants (sym13, sym31) indicates the possibility of the complementary contribution of these genes in the control of leghemoglobin synthesis.     

Solvent-induced organization: A physical model of folding myoglobin

The essential features of the in vitro refolding of myoglobin are expressed in a solvable physical model. Alpha helices are taken as the fundamental collective coordinates of the system, while the refolding is assumed to be mainly driven by solvent-induced hydrophobic forces. A quantitative model of these forces is developed and compared with experimental and theoretical results. The model is then tested by being employed in a simulation scheme designed to mimic solvent effects. Realistic dynamic trajectories of myoglobin are shown as it folds from an extended conformation to a close approximation of the native state. Various suggestive features of the process are discussed. The tenets of the model are further tested by folding the single-chain plant protein leghemoglobin. © 1994 Wiley-Liss, Inc.     

Evolutionary Aspects of Protein Structure and Folding

Four basic stages of evolution of protein structure are described, basing on recent work of the authors aimed specifically to reconstruct the earliest events in the protein evolution. According to this reconstruction, the initial stage of short peptides comprising, probably, only a few amino acid residues had been followed by formation of closed loops of 25–30 residues, which corresponds to the polymer-statistically optimal ring closure size for mixed polypeptide chains. The next stage involved fusion of relatively small linear genes and formation of protein structures consisting of several closed loops of a nearly standard size, with 4–6 loops (100–200 amino acid residues) in a typical protein fold. The last, modern stage began with combinatorial fusion of the presumably circular 300–600 bp DNA units and, accordingly, formation of multidomain proteins.     

Sources,fates, and impacts of nitrogen inputs to terrestrial ecosystems: review and synthesis

The relative importance of nitrogen inputs from atmospheric deposition and biological fixation is reviewed in a number of diverse, non-agricultural terrestrial ecosystems. Bulk precipitation inputs of N (l–l2 kg N ha^–1 yr^–1) are the same order of magnitude as, or frequently larger than, the usual range of inputs from nonsymbiotic fixation (< 1=" –=" 5=" kg=" n=">^–1 yr^–1), especially in areas influenced by industrial activity. Bulk precipitation measurements may underestimate total atmospheric deposition by 30–40% because they generally do not include all forms of wet and dry deposition. Symbiotic fixation generally ranges from 10–160 kg N ha^–1 yr^–1) in ecosystems where N-fixing species are present during early successional stages, and may exceed the range under unusual conditions.Rates of both symbiotic and nonsymbiotic fixation appear to be greater during early successional stages of forest development, where they have major impacts on nitrogen dynamics and ecosystem productivity. Fates and impacts of these nitrogen inputs are important considerations that are inadequately understood. These input processes are highly variable in space and time, and few sites have adequate comparative information on both nitrogen deposition and fixation.

Conservation of DNA bend sites with identical superhelical twists among the human, mouse, bovine, rabbit and chicken beta-globin genes.

We reported previously that DNA bend sites appear in the human beta-globin locus at an average distance of 680 bp. The relative locations of the sites were conserved among the five active beta-like globin genes and one pseudogene. Here, we mapped the sites in the beta-like globin genes from various species and examined their conservation. The locations of the bend sites in the bovine, rabbit and chicken beta-globin genes mapped here showed marked conservation in their locations relative to the cap site and showed similar locations to the previously mapped sites in the human beta- and mouse betamaj-globin genes. Further analysis of the first bend sites from the cap site (B-1 sites) indicated that they contained tracts of adenines and thymines longer than or equal to two bases. This sequence feature contributed mostly to the curvature profiles revealed by gel assays and/or by computer-based TRIF analysis. TRIF analysis indicated that most of the B-1 sites showed right-handed superhelical twists accompanied by left handed twists. This was confirmed by the effect of ethidium bromide on the superhelical twists in the assays.     

Endosymbiosis of Aphids with Microorganisms: a Model Case of Dynamic Endosymbiotic Evolution

Abstract Almost all aphids harbor prokaryotic intracellular symbionts in the cytoplasm of mycetocytes, huge cells in the abdomen specialized for this purpose. The aphids and their intracellular symbionts are in close mutualistic association and unable to live without their partner. The intracellular symbionts of various aphids are of a single origin; they are descendants of a prokaryote that was acquired by the common ancestor of the present aphids. The date of establishment of the symbiotic association is estimated to be 160–280 million years ago using 16S rRNA molecular clock calibrated by aphid fossils. Molecular phylogeny indicates that the intracellular symbiont belongs to a group of gut bacteria, suggesting the possibility that it was derived from a gut microbe of aphids. While the in-tracellular symbionts are universal and highly conserved amongst aphids, other types of symbiotic microorganisms are also present. In various aphids, bacterial “secondary” intracellular symbionts are found in addition to the standard symbionts. They are thought to be acquired many times in various lineages independently. Some Cerataphidini aphids do not have intracellular symbiotic system but harbor yeast-like extracellular symbionts in the hemocoel. In a lineage of this group, symbiont replacement from intracellular prokaryote to extracellular yeast must have occurred. The diversity of the endosymbiotic system of aphids illuminates a dynamic aspect of endosymbiotic evolution.     

Comparison of acoustical signals in Maculinea butterfly caterpillars and their obligate host Myrmica ants

An acoustical comparison between calls of parasitic butterfly caterpillars and their host ants is presented for the first time. Overall, caterpillar calls were found to be similar to ant calls, even though these organisms produce them by different means. However, a comparison of Maculinea caterpillars with those of Myrmica ants produced no evidence suggesting fine level convergence of caterpillar calls upon those of their species specific host ants. Factors mediating the species specific nature of the Maculinea-Myrmica system are discussed, and it is suggested that phylogenetic analysis is needed for future work.     

Sequence and evolution of the gene for the monomeric globin I and its linkage to genes coding for dimeric globins in the insect Chironomus thummi

We isolated genomic clones containing sequences encoding globins I and IA from a Chironomus thummi thummi genomic library. Three clones contain globin IA (ctt-1A) genes, while one contains a globin I (ctt-1) gene. The coding regions of the four genes are identical except for the single base substitution accounting for the globin I/IA polymorphism. The noncoding DNA flanking the coding region is more than 98% similar, confirming a previous hypothesis that the globin ctt-1 and ctt-1A genes are alleles. Hemoglobins I and IA are monomeric in the insect hemolymph. Earlier in situ hybridization studies suggested that monomeric and dimeric globin genes are clustered at different chromosomal loci. In situ hybridization of ctt-1 DNA to polytene salivary gland chromosomes places the ctt-1 gene on the same band as genes for the dimeric globins II and VIIB, forcing revision of the earlier hypothesis that genes for monomeric and dimeric globin genes are at different loci. The evolution of the ctt-1 and ctt-1A alleles and of the two globin gene loci are discussed. Correspondence to: G. Bergtrom     

Plant gene expression during effective and ineffective nodule development of the tropical stem-nodulated legume Sesbania rostrata

The expression of plant genes during symbiosis of Sesbania rostrata with Rhizobium sp. and Azorhizobium caulinodans was studied by comparing two-dimensional PAGE patterns of in vitro translation products of poly(A)⁺ RNA from uninfected roots and stems with that of root and stem nodules. Both types of nodules are essentially similar, particularly when stem nodules are formed in the dark. We detected the specific expression of at least 16 genes in stem and root nodules and observed the stimulated expression of about 10 other genes in both nodules. Six of the nodule-specific translation products (apparent molecular masses around 16 kDa) cross-react with an antiserum raised against leghemoglobin purified from Sesbania rostrata stem nodules. During stem nodule development, most of the nodule-stimulated genes are expressed concomitantly with leghemoglobin at day 12 after inoculation. However, some genes are already stimulated at days 6–7, some others later in development (day 18), and some are transiently activated. Patterns of root nodules induced by either Azorhizobium caulinodans strain ORS571, capable of effective root and stem nodulation, or Rhizobium sp. strain ORS51, capable of effective root nodulation only, are very similar except for a specific 37.5 kDa polypeptide. Several types of ineffective stem and root nodules were studied; in every case the amount of leghemoglobin components appeared reduced together with most of the nodule-stimulated polypeptides.     

植菌昆虫与其共生真菌协同进化分子机制

昆虫菌业（fungiculture）是一种类似于人类种植业的昆虫种植体系,包括种植、耕作、收获和营养依赖4个过程,可分为高级的社会性昆虫如切叶蚂蚁、白蚁等和低级的非社会性昆虫如食菌小蠹虫、卷叶象甲、蜥蜴甲虫、树蜂等,它们均能种植并取食真菌。近年来随着组学及微生物组技术的发展,植菌昆虫与其共生真菌协同进化的分子机制研究方面取得了重要进展。系统发育分析阐明了植菌昆虫的起源与进化历程,并显示出与共生真菌系统发育的一致性;共生真菌细胞核数量也从双核增加到最多17个核,而染色体倍型也从单倍体增加为二倍体甚至多倍体;组学分析则揭示了植菌昆虫与其共生真菌在精氨酸、碳水化合物、木质素及几丁质合成或降解等方面显示出了高度的协同进化。本文系统综述了植菌昆虫及其共生真菌的系统进化、核进化及基因组进化进展,并探讨这种协同进化机制的生物学意义。     

Comparison of the folding processes of distantly related proteins. Importance of hydrophobic content in folding

The N-terminal domain of HypF from Escherichia coli (HypF-N) is a 91 residue protein module sharing the same folding topology and a significant sequence identity with two extensively studied human proteins, muscle and common-type acylphosphatases (mAcP and ctAcP). With the aim of learning fundamental aspects of protein folding from the close comparison of so similar proteins, the folding process of HypF-N has been studied using stopped-flow fluorescence. While mAcP and ctAcP fold in a two-state fashion, HypF-N was found to collapse into a partially folded intermediate before reaching the fully folded conformation. Formation of a burst-phase intermediate is indicated by the roll over in the Chevron plot at low urea concentrations and by the large jump of intrinsic and 8-anilino-1-naphtalenesulphonic acid-derived fluorescence immediately after removal of denaturant. Furthermore, HypF-N was found to fold rapidly with a rate constant that is approximately two and three orders of magnitudes faster than ctAcP and mAcP, respectively. Differences between the bacterial protein and the two human counterparts were also found as to the involvement of proline isomerism in their respective folding processes. The results clearly indicate that features that are often thought to be relevant in protein folding are not highly conserved in the evolution of the acylphosphatase superfamily. The large difference in folding rate between mAcP and HypF-N cannot be entirely accounted for by the difference in relative contact order or related topological metrics. The analysis shows that the higher folding rate of HypF-N is in part due to the relatively high hydrophobic content of this protein. This conclusion, which is also supported by the highly significant correlation found between folding rate and hydrophobic content within a group of proteins displaying the topology of HypF-N and AcPs, suggests that the average hydrophobicity of a protein sequence is an important determinant of its folding rate.     

Bovine haemoglobin βA Zebu, βA43(CD3)Ser Thr: an intermediate globin type between the βA and βD Zambia is present in Indian zebu cattle

Two bovine haemoglobin beta chains, electrophoretically identical with the beta A chain of Herefords, were obtained from Ongole and Banteng, Bos javanicus, cattle. The amino acid residue differences of the two beta chains were compared by electrophoresis, cation-exchange and reverse-phase chromatography, amino acid analyses, and Edman degradation in comparison with beta A chain. The results showed that two beta chains differed from the beta A chain of the Hereford breed by the substitution of serine with threonine at the beta 43 position. No other difference was found between the two chains and beta A. This new beta chain type was termed beta A Zebu, which forms a possible evolutionarily transitional type between the beta A and the rare variant beta D Zambia found previously in African zebu cattle. The beta A Zebu differentiates from the previous beta B by at least four amino acid substitutions involving five codon-base changes.