Myosin and paramyosin of Caenorhabditis elegans embryos assemble into nascent structures distinct from thick filaments and multi-filament assemblages

The organization of myosin heavy chains (mhc) A and B and paramyosin (pm) which are the major proteins of thick filaments in adult wild-type Caenorhabditis elegans were studied during embryonic development. As a probe of myosin-paramyosin interaction, the unc-15 mutation e73 which produces a glu342lys charge change in pm and leads to the formation of large paracrystalline multi-filament assemblages was compared to wild type. These three proteins colocalized in wild-type embryos from 300 to 550 min of development after first cleavage at 20 degrees C on the basis of immunofluorescence microscopy using specific monoclonal antibodies. Linear structures which were diversely oriented around the muscle cell peripheries appeared at 360 min and became progressively more aligned parallel to the embryonic long axis until distinct myofibrils were formed at 550 min. In the mutant, mhc A and pm were colocalized in the linear structures, but became progressively separated until they showed no spatial overlap at the myofibril stage. These results indicate that the linear structures represent nascent assemblies containing myosin and pm in which the proteins interact differently than in wild-type thick filaments of myofibrils. In e73, these nascent structures were distinct from the multi-filament assemblages. The overlapping of actin and mhc A in the nascent linear structures suggests their possible structural and functional relationship to the "stress fiber-like structures" of cultured vertebrate muscle cells.     

Purification and characterization of wild-type and mutant TK1 type kinases from Caenorhabditis elegans

Caenorhabditis elegans has a single deoxynucleoside kinase-like gene. The sequence is similar to that of human TK1, but besides accepting thymidine as a substrate, the C. elegans TK1 (CeTK1) also phosphorylates deoxyguanosine. In contrast to human TK1, the CeTK1 exclusively exists as a dimer with a molecular mass of approximately 60 kDa, even if incubated with ATP. Incubation with ATP induces a transition into a more active enzyme with a higher kcat but unchanged Km. This activation only occurs at an enzyme concentration in the incubation buffer of 0.5 micro g/ml (8.42 nM) or higher. C-terminal deletion of the enzyme results in lower catalytic efficiency and stability.     

Phosphorylation of the N-terminal region of Caenorhabditis elegans paramyosin

Paramyosin from Caenorhabditis elegans was examined for post-translational modification by phosphorylation. Paramyosin purified from populations of mixed-age animals contained 0.7 to 2.0 moles of phosphate per mole of paramyosin. Paramyosin was also phosphorylated in vitro by an endogenous kinase in the particulate fraction. Analysis of the in vitro phosphorylated paramyosin in comparison with the DNA sequence of the unc-15 paramyosin gene of C. elegans shows that serine residues in the non-alpha-helical N-terminal region are the targets of the kinase. The N-terminal region of paramyosin has significant similarity to the non-helical C-terminal region of the two body wall myosin heavy chains of C. elegans. All three regions contain three copies of a Ser-*-Ser-*-Ala motif, the most likely target for phosphorylation in paramyosin, suggesting that these regions may be modified by the same kinase.     

Assembly-dependent phosphorylation of myosin and paramyosin of native thick filaments in Caenorhabditis elegans.

Phosphorylation of the thick filament proteins myosin and paramyosin was studied in Caenorhabditis elegans. We have incubated partially purified, native thick filaments with [gamma 32P] ATP in the presence of 50-750 mM NaCl, pH 6.5-8.0. Myosin heavy chain and paramyosin were phosphorylatable only upon solubilization at 450 mM and higher NaCl concentrations. Under conditions preserving native structures, no phosphorylation of these proteins occurred. The phosphorylation required Mg2+ but was unaffected by cAMP, cGMP or Ca2+. The specific inhibitor of cAMP and cGMP kinase catalytic subunits, H8, inhibits the activity. Sedimentation experiments show that the kinase may associate with but is not an intrinsic component of thick filaments. In C. elegans, phosphorylation by the thick filament associated activity of myosin and paramyosin is dependent upon the state of their assembly.     

Thick filament substructures in Caenorhabditis elegans: evidence for two populations of paramyosin

The thick filaments of the nematode Caenorhabditis elegans contain two myosin heavy chain isoforms A and B and paramyosin, the products of the myo-3, unc-54, and unc-15 genes, respectively. Dissociation of paramyosin from native thick filaments at pH 6.36 shows a biphasic function with respect to NaCl concentration. Electron microscopy of the remaining structures shows 15-nm core structures that label with monoclonal anti-paramyosin antibody at 72.5-nm intervals. Purified core structures also show 72.5 nm repeats by negative staining. Structural analysis of native thick filaments and dissociated structures suggests that the more dissociable paramyosin is removed radially as well as processively from the filament ends. Minor proteins with masses of 20, 28, and 30 kD cosediment stoichiometrically with paramyosin in purified core structures.     

Caenorhabditis elegans galectins LEC-1-LEC-11: structural features and sugar-binding properties

Galectins form a large family of beta-galactoside-binding proteins in metazoa and fungi. This report presents a comparative study of the functions of potential galectin genes found in the genome database of Caenorhabditis elegans. We isolated full-length cDNAs of eight potential galectin genes (lec-2-5 and 8-11) from a lambdaZAP cDNA library. Among them, lec-2-5 were found to encode 31-35-kDa polypeptides containing two carbohydrate-recognition domains similar to the previously characterized lec-1, whereas lec-8-11 were found to encode 16-27-kDa polypeptides containing a single carbohydrate-recognition domain and a C-terminal tail of unknown function. Recombinant proteins corresponding to lec-1-4, -6, and 8-10 were expressed in Escherichia coli, and their sugar-binding properties were assessed. Analysis using affinity adsorbents with various beta-galactosides, i.e., N-acetyllactosamine (Galbeta1-4GlcNAc), lacto-N-neotetraose (Galbeta1-4GlcNAcbeta1-3Galbeta1-4Glc), and asialofetuin, demonstrated that LEC-1-4, -6, and -10 have a significant affinity for beta-galactosides, while the others have a relatively lower affinity. These results indicate that the integrity of key amino acid residues responsible for recognition of lactose (Galbeta1-4Glc) or N-acetyllactosamine in vertebrate galectins is also required in C. elegans galectins. However, analysis of their fine oligosaccharide-binding properties by frontal affinity chromatography suggests their divergence towards more specialized functions.     

Yolk proteins of Caenorhabditis elegans

A group of proteins judged on several criteria to be yolk proteins have been isolated from a homogenate of the nematode Caenorhabditis elegans. Comparison of partial proteolysis fragments indicates that the two bands of a 170,000-dalton doublet (yp170) are closely related; bands observed at 115,000 daltons (yp115) and 88,000 daltons (yp88) appear to be structurally distinct. All three yolk protein species are glycoproteins, as judged by binding of the lectin concanavalin A. The yp170 doublet has been purified by gel filtration in the presence of sodium dodecyl sulfate. An antiserum obtained by immunization with the purified yp170 doublet does not bind either of the two smaller proteins. Staining of C. elegans eggs by indirect immunofluorescence with the anti-yp170 serum indicates a dispersed cytoplasmic location for the antigen throughout embryogenesis, with apparent segregation to the intestine immediately prior to hatching.     

Actin and myosin-linked calcium regulation in the nematode Caenorhabditis elegans. Biochemical and structural properties of native filaments and purified proteins.

Calcium regulation of actomyosin activity in the nematode, Caenorhabditis elegans, has been studied with purified proteins and crude thin filaments. Actin and tropomyosin have been purified from C. elegans and shown to be similar in most respects to actin and tropomyosin from rabbit skeletal muscle. The actin comigrates with rabbit actin on polyacrylamide-sodium dodecyl sulfate gel electrophoresis, forms similar filaments and paracrystals, and activates the Mg2+-ATPase of rabbit myosin heads as efficiently as rabbit actin. Nematode tropomyosin has a greater apparent molecular weight (estimated by mobility on polyacrylamide-sodium dodecyl sulfate gels) than the rabbit protein, yet it forms Mg2+-paracrystals with a slightly shorter periodicity. Native thin filaments extracted from nematodes activate rabbit myosin subfragment 1 Mg2+-ATPase in a calcium sensitive manner; the extent of activation is threefold greater in 0.2 mM CaCl2 than in the absence of calcium. This observation suggests that the thin filaments contain components which are functionally equivalent to vertebrate troponins. Calcium is also required for maximal activation of the Mg2+-ATPase of purified nematode myosin by pure rabbit F-actin. C. elegans therefore has both myosin and thin filament-linked calcium regulatory systems. The origin of the actin, tropomyosin, and myosin from different tissues and the use of genetic analysis to answer questions about assembly and function in vivo are discussed.     

原位杂交检测pal-1 mRNA在秀丽小杆线虫野生型和突变体早期胚胎中的分布

pal-1是秀丽小杆线虫(Caenorhabditis elegans)早期胚胎发育中决定体细胞命运的重要基因,也是转录因子,调控后续基因的表达,凡含有该基因表达的细胞发育成体细胞。本文通过整体原位杂交技术检测pal-1mRNA在C·elegans野生型和par-1、par-2、par-3、par-4突变体、spn-4突变体、mex-5/mex-6突变体早期胚胎中的分布,探讨这些基因在胚胎发育早期对pal-1mRNA的影响。实验结果表明:par-1、par-3、par-4突变使4细胞胚胎pal-1mRNA完全丧失了野生型不对称分布模式,pal-1mRNA分布在所有卵裂球中;par-2对pal-1mRNA的分布影响较小,在par-2突变体4细胞胚胎中pal-1mRNA分布与野生型相同。spn-4、mex-5、mex-6也能影响pal-1mRNA的分布,使其分布丧失不对称性。在par-1、par-4突变的情况下,pal-1mRNA广泛存在,但PAL-1蛋白也不表达,显示对pal-1mRNA的翻译调控是PAL-1蛋白空间和时序不对称分布的主要原因[动物学报51(5):884-891,2005]。     

Effects of age and liquid holding on the UV-radiation sensitivities of wild-type and mutant Caenorhabditis elegans dauer larvae

The dauer larva is a facultative developmental stage in the life cycle of the nematode Caenorhabditis elegans. Dauer larvae, which can survive under starvation for over 60 days, resume normal development when feeding is resumed. Wild-type (N2) and 4 radiation-sensitive (rad) mutant dauer larvae were tested for their abilities to develop into adults after UV-irradiation. The rad-3 mutant was over 30 times as sensitive as N2; rad-1, rad-2 and rad-7 mutants were not hypersensitive. Irradiation also delayed development in survivors. Wild-type dauer larvae did not differ in radiation sensitivity from 0 through 50 days of age. There was no liquid holding recovery (LHR); that is, survival did not increase when wild-type dauer larvae were held in buffer after irradiation.     

Myosin and the PAR proteins polarize microfilament-dependent forces that shape and position mitotic spindles in Caenorhabditis elegans

In Caenorhabditis elegans, the partitioning proteins (PARs), microfilaments (MFs), dynein, dynactin, and a nonmuscle myosin II all localize to the cortex of early embryonic cells. Both the PARs and the actomyosin cytoskeleton are required to polarize the anterior-posterior (a-p) body axis in one-cell zygotes, but it remains unknown how MFs influence embryonic polarity. Here we show that MFs are required for the cortical localization of PAR-2 and PAR-3. Furthermore, we show that PAR polarity regulates MF-dependent cortical forces applied to astral microtubules (MTs). These forces, which appear to be mediated by dynein and dynactin, produce changes in the shape and orientation of mitotic spindles. Unlike MFs, dynein, and dynactin, myosin II is not required for the production of these forces. Instead, myosin influences embryonic polarity by limiting PAR-3 to the anterior cortex. This in turn produces asymmetry in the forces applied to MTs at each pole and allows PAR-2 to accumulate in the posterior cortex of a one-cell zygote and maintain asymmetry.     

Wild-type and mutant actin genes in Caenorhabditis elegans

We have sequenced the four actin genes of Caenorhabditis elegans. These four genes encode typical invertebrate actins and are highly homologous, differing from each other by, at most, three amino acid residues. As a first step toward an understanding of the developmental regulation of this gene set we have also sequenced mutant actin genes. The mutant genes were cloned from two independent revertants of a single dominant actin mutant. For both revertants, reversion was accompanied by an actin gene rearrangement. The accumulation of actin mRNA during development in these two revertants is different from that of wild-type animals. We present here a correlation between actin gene structure and expression in wild-type and mutant animals. The results, suggest that co-ordinate regulation of actin genes is not essential for wild-type muscle function. In addition, it appears that changes in the 3' region of at least one of the actin mRNA may affect its steady-state regulation during development.     

Purification and characterization of beta-galactoside-binding proteins from Caenorhabditis elegans.

Two carbohydrate-binding proteins (subunit molecular masses, 32 and 16 kDa, respectively) were isolated for the first time from a nematode, Caenorhabditis elegans. They were specifically extracted with lactose and adsorbed on asialofetuin-Sepharose in the absence of a metal ion. Although these two proteins were co-eluted from a gel filtration column at a position corresponding to an apparent molecular size of 30 kDa under non-denaturing conditions, they could be separated by reversed-phase chromatography. The 32 kDa protein, the main component, was further characterized. Together with its solubility, saccharide specificity and metal independence, some other structural properties, including its amino acid composition, UV spectrum, and partial amino acid sequence, strongly suggested that the 32 kDa protein is a member of a class of soluble beta-galactoside-binding lectins which had previously been only found in vertebrates.     

Further characterization of a temperature-sensitive transformation mutant in Caenorhabditis elegans.

The temperature-sensitive sex transformer tra-2 (b202) II of the nematode Caenorhabditis elegans causes the transformation of genotypically hermaphrodite worms into phenotypic males and sterile intersexes at restrictive temperature. In this note, we show that the entire gonad structure is transformed and that oocyte development is autonomous of the form of the gonad and of the presence of a cellular sheath. Four oocyte-specific proteins are present in male intersexes that produce oocytes but are lacking in transformed males and hermaphrodite intersexes that do not produce oocytes.     

Patterns of proteins synthesized during development of Caenorhabditis elegans.

Two-dimensional gel electrophoresis has been used to analyze proteins synthesized during postembryonic development of the nematode Caenorhabditis elegans. This organism is favorable for these studies because it has a limited number of cells, it is genetically well-defined, and its development is currently under investigation in several laboratories. ³⁵S-Labeled E. coli was used for continuous and pulse labeling of C. elegans during its four juvenile larval stages and as a gravid adult. After continuous labeling or pulse labeling for 1 hr, 600–800 individual spots can be resolved on a 2D gel using fluorography and 2 weeks of exposure. Proteins that represent 0.0017% of the total sample can be detected. Exposure for 12 weeks reveals only 100 additional spots even though the films are not saturated. It therefore appears that the frequency distribution of proteins decreases significantly beyond these 800 most abundant proteins that can be fractionated on an O'Farrell gel. When the patterns of pulse-labeled proteins of the five developmental stages were compared, 113 proteins could be seen to undergo modulation at one or more of the developmental stages. A maximum number of changes was seen in the transition from the L4 to the adult stages when 11% of the total spots either appeared, disappeared, or changed in intensity. As controls, different preparations of the same developmental stage were compared and revealed considerable fluctuation, 2.6–4.8%. These fluctuations are presumed to be due to variations in growth conditions during culture of the organism. Continuous label experiments reveal a distinct set of proteins that undergo turnover and/or modification during development. Some of these proteins are absent in only one stage, indicating that stable proteins are also modulated. But nearly all of the proteins seen in a continuous label are also seen in a pulse label indicating that most of the major proteins are always present and always synthesized.     

A methyl viologen-sensitive mutant of the nematode Caenorhabditis elegans

A methyl viologen (paraquat)-sensitive mutant, mev-1 (LG III), in Caenorhabditis elegans was about 4 times more sensitive to methyl viologen than the wild type. This mutant was also hypersensitive to oxygen. The brood size was about 1/4 that of the wild type. The average life span was determined to be 9.3 days as compared to 14.3 days for the wild type. The activity of superoxide dismutase (SOD), a scavenging enzyme for superoxide anion, was about half the wild-type level. We suggest that oxygen radicals may be involved in the normal aging mechanism in C. elegans.     

Age-specific nuclear proteins in the nematode worm Caenorhabditis elegans.

The nematode worm Caenorhabditis elegans is known to undergo characteristic morphological as well as physiological signs of senescence. Two-dimensional gel electrophoresis shows that alterations also occur in the pattern of the nuclear proteins as a function of age. Non-histone proteins whose level exhibits a steep fall with age are egg-specific and not involved in senescence. However, a distinct set of non-histones accumulates with age and can be considered as senescence markers. Some of these are glycoproteins, as shown by their concanavalin A-binding properties. One age-specific polypeptide, called 'protein S-28', was further characterized by peptide mapping and determination of its N-terminal amino acid sequence.     

Intersex,a temperature-sensitive mutant of the nematode Caenorhabditis elegans

A temperature-sensitive mutation, isx-1(hc17), is reported in the nematode Caenorhabditis elegans which alters the sexual phenotypes of both genotypic sexes. At the restrictive temperature, XX animals are functionally female rather than hermaphroditic due to the absence of spermatogenesis, and XO animals develop as intersexes. These intersexes have normal male head and tail structures and exhibit some mating behavior, but possess hermaphrodite-like gonads which produce no sperm and usually contain a few oocytes. An abortive vulva is usually present and evidence is presented which suggests that the formation of the vulva by the hypodermis is induced by the underlying gonad. The direct effects of the mutation are confined to the descendants of four primordial gonad cells. Gametogenesis and gonad sheath development do not seem to be tightly coupled and are shown to differ in their responses to X-chromosome dosage. The interaction of the intersex mutation with mutant alleles of two transformer genes tra-1 and tra-2 is discussed and a model for the action of these genes in gonad development and sex determination is proposed.