Separation of primitive and definitive erythroid cells of the chick embryo

The primitive and definitive erythroid cells of the chick embryo are separated preparatively by means of velocity sedimentation at unit gravity in BSA gradients. Analyses of the hemoglobins contained by the fractionated cells show a segregation of different hemoglobins between the primitive and definitive cells. Studies of the incorporation of [³H]leucine show that the fractionated cells are normal with respect to their protein synthetic activities and that their relative rates of incorporation are markedly different.     

Collagen in developing chick muscle in vivo and in vitro

Because of the known role of collagen in chick skeletal muscle differentiation the collagen synthesized by embryonic chick muscle was studied. The major collagen synthesized by this muscle was found to be type I collagen. In addition, the effectiveness of types I, II, III and IV collagens in promoting myoblast fusion in vitro was compared. These collagens were found to be equally effective as in vitro substrates.     

Cell surface antigens of totipotent mouse teratocarcinoma cells grown in vivo: their relation to embryo, adult, and tumor antigens.

Cell surface antigens on mouse embryonal carcinoma (or teratocarcinoma) cells were investigated by means of a syngeneic antiserum prepared against small-size embryoid bodies from the ascites form of the OTT 6050 transplantable teratoma. These embryoid bodies consist of embryonal carcinoma cells which are usually covered by a yolk-sac-like epithelium. The choice of immunogen was based on the previous demonstration [Mintz, B., and Illmensee, K. (1975) Proc. Nat. Acad. Sci. USA72, 3585–3589] that embryonal carcinoma cells from this specific source are euploid, developmentally totipotent, and completely reversible to normalcy. In indirect immunofluorescence tests, anti-embryoid-body serum reacted with both cell types of the immunogen and with two in vitro lines of embryonal carcinoma cells. Absorption of antiserum with a pure yolk sac carcinoma derived from the epithelial component of the embryoid bodies enabled assessment of reactivity with the embryonal carcinoma component of the immunogen: The absorption revealed that some antigens recognized on the embryonal carcinoma cells were shared by the yolk sac epithelial cells but that some antigens were present only on the embryonal carcinoma cells. The antigens were not shared by sperm, which failed to fluoresce with unabsorbed antiserum and were ineffective when tested as absorbents of antiserum reactivity against embryoid body target cells. Unfertilized eggs also failed to fluoresce. Preimplantation embryos gave immunofluorescence evidence of some antigens shared with embryonal carcinoma cells (and some with yolk sac cells) during cleavage, and in the blastocyst on both inner cell mass and trophoblast. Postimplantation embryos were also antigen-positive (at least through Day 6) in immunofluorescence tests on endoderm as well as ectoderm cells. Absorption of the antiserum with various normal adult tissues showed substantial cross-reactivity, especially with ovary and testis. Other tumors were tested, but only hepatoma cells grown in vitro were reactive, thereby indicating lack of any general tumor recognition in the antiserum. The above results with syngeneic immunizations demonstrate that known totipotent teratocarcinoma cells possess surface molecules which, while not universal on normal cells or tumors, are shared with many other tissues, including developmentally plastic cells of early embryos, developmentally restricted cells of later embryos, and various adult tissues. Immunofluorescence tests of cleavage-stage (Day 2) embryos from matings of $\text{+}\text{t}{}^{12}\text{×}\text{+}\text{t}{}^{12}$ heterozygotes, yielding 40% mutant $\text{t}{}^{12}\text{t}{}^{12}$ homozygotes lethal on Day 3, were uniformly positive on all the embryos, including mutants and normals. Therefore, under these conditions, no evidence was adduced to support the hypothesis that surface components required for normal early development might be coded by the wild-type allele of t¹².     

A minor sialoglycoprotein of the human erythrocyte membrane

The sialoglycoprotein periodate fuchsin sulfite 2 has about 8% of the sialic acid contained in the sialoglycoproteins of the human erythrocyte membrane. This polypeptide appears to have an apparent monomeric molecular weight of 35,000, somewhat smaller than the monomer of the major sialoglycoprotein (periodate fuchsin sulfite 1) as judged by sodium dodecyl sulfate-polyacry lamide gel electrophoresis, and has frequently been confused with the monomer of the major sialoglycoprotein. Periodate fuchsin sulfite 2 is not labeled by the lactoperoxidase procedure in the intact cell, although it is accessible to neuraminidase and other hydrolases. On the other hand, this component can be labeled by lactoperoxidase on the cytoplasmic surface of open membranes or resealed ghosts. Thus, it is a trans membrane protein. Although most of the other transmembrane proteins of the human erythrocyte membrane are extracted from the membrane by 0.1% Triton X-100 in 7 mm phosphate buffer, pH 7.4, this component is not removed and may be a cytoskeletal component. Trypsin, chymotrypsin, and thermolysin peptides, as well as cyanogen bromide fragments, clearly indicate that the primary sequence of this polypeptide can be distinguished from dimeric or monomeric forms of the major sialoglycoprotein (periodate fuchsin sulfite 1).     

Loose binding of testicular mitochondrial ATPase to the inner membrane

Rat testis mitochondrial ATPase was not inhibited by oligomycin at pH 7.5. It was inhibited only at higher alkaline pH's, and showed a lower sensitivity both to oligomycin and N,N′-dicyclohexylcarbodiimide and a higher one to efrapeptin. In submitochondrial particles, testis ATPase was only slightly inhibited by oligomycin, ossamycin, and efrapeptin. The possibility of a loose binding of F₁ to the membrane was supported by its recovery from the supernatant of the submitochondrial particles. Furthermore, by electron microscopy, after hypoosmotic shock and negative staining of the mitochondrial preparations, most of the inner mitochondrial membranes showed only a few “knobs” or none at all. The capacity of the testis mitochondrial preparation to produce ATP was tested and compared to that from liver. ATP synthetase/ATPase activity ratio was $\text{30}\text{1}$ in liver mitochondria, whereas in the testis it was $\text{3}\text{1}$. In spite of this large difference, at least part of the testis ATPase must be firmly bound to the membrane, since it is able to form ATP. The rest seems to be loosely bound and its functional significance is still unknown.     

Kinetic resonance Raman spectroscopy of carotenoids: A sensitive kinetic monitor of bacteriorhodopsin mediated membrane potential changes

A rapid (14 – 22 μs) light-induced, bacteriorhodopsin mediated membrane potential has been detected using the technique of kinetic resonance Raman spectroscopy and the model system of β-carotene incorporated into reconstituted vesicles containing bacteriorhodopsin. Our data demonstrate that the kinetic resonance Raman spectrum of β-carotene is an extremely sensitive monitor of kinetic alterations in membrane potential with micron spatial resolution in a highly scattering medium. In addition, our Raman results indicate that the potential sensitivity of β-carotene is an excited state property of the molecule, thus making it an electrochromic monitor of membrane potential. We feel the techniques illustrated in this paper have the advantage of being a native probe of kinetic membrane potential changes and will be applicable to a wide variety of biological systems without the perturbing side-effects which often accompany the use of non-biological, potential-sensitive dyes.     

Salivary cues in the mouse: a preliminary study

Two experiments were designed to explore the possible role of mouse saliva in modulating social interactions. Experiment 1 examined the investigatory sniffing behavior of an intact male toward either another intact male or castrated male. It was found that castrates received more mouth, ears-eyes, and hind sniffing than intacts. In addition, the temporal patterning of mouth and ears-eyes sniffing was found to be different for the two stimulus conditions. The findings of Experiment 2 indicated that saliva from testosterone-treated castrates contained aggression-promoting cues relative to saliva from castrated control animals. Possible sources of the salivary chemosignal were discussed.     

Isolation of the outer acrosomal membrane from bull sperm

A procedure is described for subcellular fractionation of bull sperm which allows the isolation of outer acrosomal membrane without the use of detergent. After washing to remove seminal plasma contaminants, the acrosomal membrane is removed by homogenization and separated on a two-step sucrose gradient. The isolated membranes have been characterized by light and electron microscopy and enzyme analysis. While the acrosomal enzymes hyaluronidase and acrosin are bound to the isolated membranes, they represent only a small percentage of the total activity and therefore do not provide reliable marker enzymes for this fraction.Subcellular fractionation of sperm also yields information on the solubility of acrosomal enzymes. Two types of acrosomal enzymes have been identified on the basis of their distribution in gradient fractions. Both α-fucosidase and β-N-acetyl glucosaminidase are concentrated in the soluble fraction of the gradient. In contrast, over 70% of the acrosin and hyaluronidase activity remains associated with the sperm pellet. These differences in solubility of these enzymes may reflect differences in their function in fertilization.     

Sequence complexity and tissue distribution of chick lens crystallin mRNAs

Using hybridization reactions with a cDNA copy, the complexity of polysomal polyadenylated mRNA from the day-old chick lens was found to correspond to 5800–7200 sequences of average size, arranged in three abundance classes. Experiments with heterologous cDNAs suggest on a qualitative basis that many of the sequences expressed in 8-day embryonic neural retina and pigmented epithelium mRNAs are also present in lens mRNA. A cDNA fraction complementary to the most abundant lens mRNAs, representing an approximate minimum of four sequences, was used to assay the dosage of putative crystallin sequences in these and other embryonic tissues. Neural retina and pigmented epithelium cytoplasmic mRNAs have low concentrations of these sequences, which appear to be absent from mRNA prepared from headless bodies and muscle.     

A simple radioassay for dihydrofolate synthetase activity in Escherichia coli and its application to an inhibition study of new pteroate analogs

A simple radioactive assay system is elaborated for the measurement of dihyrofolate synthetase activity in Escherichia coli. It is also applicable to Neisseria gonorrhoeae and N. meningitidis extracts. Eight oxidized and reduced pteroate analogs have been examined for inhibitory activity. The most active inhibitor was dihydrohomopteroic acid followed by dihydro-10-thiopteroic acid, dihydrofolic acid, and dihydroisopteroic acid. The enzyme appears to be incapable of binding with substrate and any of the inhibitors in their oxidized forms.     

Acetylcholine receptor-controlled ion flux in electroplax membrane vesicles: A minimal mechanism based on rate measurements in the millisecond to minute time region

The dependence of acetylcholine receptor-controlled transmembrane ion flux on carbamylcholine concentration was measured in the msec time region, using membrane vesicles and a quench flow technique. 4 Measurements were made: (1) transmembrane ion influx, (2) rate of inactivation of the receptor by carbamylcholine, (3) rate of recovery, and (4) ion influx mediated by “inactivated” receptor. The minimal model, based on the measurements, accounts for the time dependence of receptor-controlled ion flux over a 200-fold carbamylcholine concentration range. The maximum flux rate of 84 sec^?1 indicates that we have succeeded in measuring the receptor-controlled processes which give rise to electrical signals in cells.     

Hybrid microtubules from mixtures of human fibroblast homogenates and chick brain microtubules : Absence of high molecular weight associated proteins

Microtubules have been assembled from a mixture of chick-brain microtubule protein and total soluble protein of cultured human fibroblasts. In this system microtubules were assembled which did not have any high molecular weight (HMW) microtubule-associated protein (MAP). Since the fibroblasts were human in origin, the hybrid microtubules were compared to microtubules assembled from human brain, which do include HMW-MAPs. To determine whether HMW-MAP is unique to brain, microtubules were assembled from mixtures of soluble proteins from non-neural mouse organs and chick brain microtubules. These hybrid microtubules contain similar HMW-MAPs to those of the chick brain alone. The absence of HMW-MAPs from the hybrid microtubules does not appear to be due to proteolysis. SDS-gel electrophoresis of all fractions prepared during the process of assembly of the hybrid microtubules reveals that the HMW-MAPs of the mixture are sedimented away from disassembled microtubules during the first centrifugation. The exclusion of the HMW-MAPs from the hybrid microtubules suggests that the assembly process in these mixtures, and in fibroblasts, may be qualitatively different from that found in extracts from brain and other organs.     

An experimental approach to the study of factors affecting algal colonization in a sublittoral kelp forest

Factors influencing the early colonization by benthic macroalgae and the early successional sequence in a subtidal Ecklonia radiata (C. Agardh) J. Agardh forest in Port Jackson (Sydney) were investigated using controlled experiments involving the microscopic sampling of settlement plates. The preliminary results indicate that the Tolerance model of succession may be applicable. The effect of grazers, and competition between different algal types were important and could, later in the succession, lead to the operation of the mechanisms suggested by the Facilitation or Inhibition models. Controls for the use of settlement plates showed that thick settlement plates led to an over-estimation of initial algal growth compared with the growth on natural patches of substratum. Other results suggested that thick plates excluded grazers. Borders of plates were investigated, but the establishment of algae was random over the plates′ surfaces and border effects were the result of physical or biotic factors acting on algae after settlement. An experiment was developed for use in subtidal areas to test for artifacts due to cages. It was found that the presence of the cages influences the community by attracting small snails. Fish were excluded from some areas to monitor their effects on initial algal growth. Exclusion of fish was found to cause a reduction in algal growth as well as increases in numbers of small invertebrates such as amphipods and copepods. The results suggested that the amount of algae initially present was affected by invertebrate grazers, the abundances of which were, in turn, affected by predation. The species diversity of the early algal growth did not show any consistent trends between high and low grazing pressure. Grazing was important in determining the temporal variability of early growth of individual species. Siltation was positively correlated with early algal growth; a mechanism to account for this effect is suggested. The application of the methods used in this study to future experimental studies of sublittoral community dynamics is considered.     

Differentiation of lens and pigment cells in cultures of neural retinal cells of early chick embryos

Dissociated cells of neural retinas of 3.5-day-old chick embryos (stages 20–21) were cultured as a monolayer in order to examine their differentiation in vitro. These cells started to grow actively soon after inoculation and formed a confluent sheet within which neuroblast-like cells with long cytoplasmic processes were differentiated by 8 days. At about 16 days the differentiation of both lentoid bodies and foci of pigment cells was observed, while neuronal structure disappeared. The numbers of lentoid bodies and foci of pigmented cells continued to increase up to 30 days, when primary cultures were terminated. The increase in δ-crystallin content, as measured by quantitative immunoelectrophoresis assay using rabbit antiserum against δ-crystallin, was consistent with the increase in the number of lentoid bodies in cultures. The amount of α-crystallin per culture, estimated by the same technique as above, reached a maximum at 16 days and decreased slightly during further culture. The differentiation of both lentoid bodies and pigment cells was observed also in cultures of the second generation. The results demonstrate that cells of the undifferentiated neuroepithelium of 3.5-day-old embryonic retinas can achieve at least three differentiations, neuronal, lens, and pigment cells, in vitro. We discuss several differences between the present results and the previous ones from in vitro cultures of 8- to 9-day-old embryonic neural retinas.     

Electrical membrane phenomena in spherules from proteinoid and Lecithin

Spontaneous and induced electrical phenomena resembling membrane and action potentials in natural excitable cells have been observed in artificial cells. These artificial cells were made from thermal proteinoid and lecithin in a solution of potassium acid phosphate with glycerol.     

A study of the dynamic properties of actomyosin systems by quasi-elastic light scattering

A laser light source and a digital autocorrelator were employed in the study of the molecular dynamics of acto-heavy meromyosin during the splitting of ATP. Low protein concentrations were used, so that molecular and not gel properties were evident. The addition of Mg²⁺ to acto-heavy meromyosin solutions in the presence of ATP caused a marked widening of the spectrum at high scattering angles. No such change was observed when chemically inactivated heavy meromyosin was used, when actin was cross-linked or when the proteins were in a high ionic strength solution. The data can be interpreted in terms of pronounced change in flexibility of acto-heavy meromyosin induced by active mechanochemical coupling.     

A study of the evolution of repeated DNA sequences in primates and the existence of a new class of repetitive sequences in primates.

A new class of lowly repetitive DNA sequences has been detected in the primate genome. The renaturation rate of this sequence class is practically indistinguishable from the renaturation rate of single-copy sequences. Consequently, this lowly repetitive sequence class has not been previously observed in DNA renaturation rate studies. This new sequence class is significant in that it might occupy a major fraction of the primate genome.Based on a study of the thermal stabilities of DNA heteroduplexes constructed from human DNA and either bonnet monkey or galago DNAs, we are able to compare the relative mutation rates of repetitive and single-copy sequences in the primate genome. We find that the mutation rate of short, interspersed repetitive sequences is either less than or approximately equal to the mutation rate of single-copy sequences. This implies that the base sequence of these repetitive sequences is important to their biological function.We also find that numerous mutations have accumulated in interspersed repeated sequences since the divergence of galago and human. These mutations are only recognizable because they occur at specific sites in the repeated sequence rather than at random sites in the sequence. Although interspersed repetitive sequences from human and galago can readily cross-hybridize, these site-specific mutations identify them as being two distinct classes. In contrast, far fewer site-specific mutations have occurred since the divergence of human and monkey.