Nitrogenase reactivity: methyl isocyanide as substrate and inhibitor

We have examined the interaction of methyl isocyanide with the purified component proteins of Azotobacter vinelandii nitrogenase (Av1 and Av2). CH3NC was shown to be a potent reversible inhibitor (Ki = 158 microM) of total electron flow, apparently uncoupling magnesium adenosine 5'-triphosphate hydrolysis from electron transfer to substrate. CH3NC is a substrate (Km = 0.688 mM at Av2/Av1 = 8), and extrapolation of the data indicates that at high enough CH3NC concentration, H2 evolution can be eliminated. The products are methane plus methylamine (six electrons) and dimethylamine (four electrons). There is an excess (relative to methane) of methylamine formed, which may arise by hydrolysis of a two-electron intermediate. A rapid high-performance liquid chromatography/fluorescence method was developed for methylamine determination. The products C2H4 and C2H6 appear to be formed via a reduction followed by an insertion mechanism. CH3NC appears to be reduced at an enzyme state more oxidized than the one responsible for H2 evolution or N2 reduction. Other substrates (C2H2 greater than N2 congruent to azide greater than N2O) all both relieve CH3NC inhibition and inhibit CH3NC reduction. Both effects occur in the same relative order, implying productive (substrate) and nonproductive (inhibitor) modes of binding of CH3NC to the same site.     

The lipid composition and conversion of tryptamine toN b-acetyltryptamine in aCatharanthus roseus cell line without indole alkaloids

Summary A cell line, NA13-2, was selected as a rapidly growing colony of protoplasts from a UV(254 nm)-fluorescent cell line, NA13-1, which originated from a tryptamine-resistant strain ofCatharanthus roseus NA13. Cell line NA13-2 lost the capability to produce indole alkaloids. Tryptophan fed to these cells was converted toN _b-acetyltryptamine as the major product. The free acetyl coenzyme A content of NA13-2 cells was 50% higher than in the mother cells. The total lipid content of the NA13-2 cells was 2.5-fold that in the NA13 cells. In spite of the similarity in the fatty acid content to that of the mother cell line NA13, the total lipid extract of NA13-2 cells appeared as a wax instead of an oil, resulting from the presence of sterol esters.This paper was presented in part at the Annual Meeting of the Society for Industrial Microbiology, Boston, MA, 1985, and the International Congress of the Plant Tissue Culture Association, Minneapolis, MN, 1986.     

Functional characterization of cAMP-binding mutations in type I protein kinase

A mutant form of the type I regulatory subunit (RI) of cAMP-dependent protein kinase has been cloned and sequenced (Clegg, C. H., Correll, L. A., Cadd, G. C., and McKnight, G. S. (1987) J. Biol. Chem. 262, 13111-13119) which contains two point mutations in the site B cAMP-binding site, a Gly to Asp at position this report, the effect of each independent mutation on the rate of dissociation of cAMP from RI, the cAMP-mediated activation of holoenzyme and the inducibility of cAMP-responsive genes has been characterized. Dissociation of cAMP from either recombinant wild type RI or the B1 mutant demonstrated biphasic kinetics, indicating two sites with different affinities for cAMP. Dissociation from the B2 subunit, however, was monophasic and very rapid indicating that site B had been destroyed and that the rate of dissociation from site A was increased. The cAMP activation constants (Ka) of the wild type and B1 holoenzymes were 40 and 188 nM, respectively, and demonstrated positive cooperativity, with Hill coefficients of 1.61 for the wild type and 1.67 for B1. The B2 holoenzyme required much greater concentrations of cAMP, 4.7 microM, for half-maximal activation and did not display positive cooperativity. Constitutive expression in mouse AtT20 pituitary cells of the B1 mutant resulted in only a small shift in the Ka for kinase activation in these cells compared with B2 expression which increased the Ka by more than 100-fold. Transient expression of the B1 subunit in human JEG-3 choriocarcinoma cells inhibited forskolin activation of a cAMP-responsive promoter by 35% whereas similar expression of the B2 RI subunit inhibited the response by 90%. These results suggest that the Gly to Asp mutation at amino acid 324 completely blocks cAMP binding to site B whereas the Arg to His mutation at position 332 causes a more subtle alteration in cAMP binding. Expression of either mutant RI in animal cells results in a dominant repression of cAMP-dependent protein kinase activity and cAMP-dependent protein kinase-mediated processes.     

Oligo- and Polymetastatic Progression in Lung Metastasis(es) Patients Is Associated with Specific MicroRNAs

Rationale

Strategies to stage and treat cancer rely on a presumption of either localized or widespread metastatic disease. An intermediate state of metastasis termed oligometastasis(es) characterized by limited progression has been proposed. Oligometastases are amenable to treatment by surgical resection or radiotherapy.

Methods

We analyzed microRNA expression patterns from lung metastasis samples of patients with ≤5 initial metastases resected with curative intent.

Results

Patients were stratified into subgroups based on their rate of metastatic progression. We prioritized microRNAs between patients with the highest and lowest rates of recurrence. We designated these as high rate of progression (HRP) and low rate of progression (LRP); the latter group included patients with no recurrences. The prioritized microRNAs distinguished HRP from LRP and were associated with rate of metastatic progression and survival in an independent validation dataset.

Conclusion

Oligo- and poly- metastasis are distinct entities at the clinical and molecular level.     

Remodeling and activation mechanisms of outer arm dyneins revealed by cryo‐EM

Cilia are thin microtubule‐based protrusions of eukaryotic cells. The swimming of ciliated protists and sperm cells is propelled by the beating of cilia. Cilia propagate the flow of mucus in the trachea and protect the human body from viral infections. The main force generators of ciliary beating are the outer dynein arms (ODAs) which attach to the doublet microtubules. The bending of cilia is driven by the ODAs'' conformational changes caused by ATP hydrolysis. Here, we report the native ODA complex structure attaching to the doublet microtubule by cryo‐electron microscopy. The structure reveals how the ODA complex is attached to the doublet microtubule via the docking complex in its native state. Combined with coarse‐grained molecular dynamic simulations, we present a model of how the attachment of the ODA to the doublet microtubule induces remodeling and activation of the ODA complex.     

Multiple nuclear-gene phylogenies: application to pinnipeds and comparison with a mitochondrial DNA gene phylogeny

Phylogenetic analyses of closely related species should use information from multiple, independent genes with relatively high rates of sequence evolution. To investigate species for which there are few prior sequence data for single-copy nuclear (scnDNA) genes, primers for gene amplification can be designed to highly conserved regions of exons in order to amplify both coding (exons) and noncoding (introns) sequences. We have explored this approach in a phylogenetic analysis of six species of pinnipeds that, together with terrestrial carnivore outgroups, encompass divergence times < or = 40-50 Mya. We sequenced one intron from each of the aldolase A (ALD-A), aldolase C (ALD-C), and histone H2AF genes; one exon from the major-histocompatibility-complex DQA gene; a H2AF processed pseudogene (psi H2AF); and, for comparison with the nuclear genes, the 5' portion of the mitochondrial DNA (mtDNA) control region. The pinniped psi H2AF genes were found to be of limited use because they were paralogous with the gene in the outgroup. The rate of silent substitution in scnDNA (primarily introns) was 5-10-fold lower than that for mtDNA control region I, and scnDNA sequence divergence increased linearly with time < or = 40-50 Mya. Alleles at three polymorphic scnDNA loci (ALD-A, H2AF, and DQA) in the southern elephant seal were paraphyletic with respect to the allele from the closely related northern elephant seal, while the more numerous mtDNA alleles were monophyletic. This we attribute to the consequences of a higher mutation rate rather than to a lower effective population size of mtDNA compared with scnDNA. Within the short (i.e., < 500-bp) sequences of individual scnDNA sequences, phylogenetically informative variation was insufficient to obtain robust phylogenies. However, the combined scnDNA sequences produced a well-supported phylogeny congruent with that derived from mtDNA. This analysis illustrates the high resolution of mtDNA sequences compared with a similar length of scnDNA sequence, but it also demonstrates the utility of combining information from multiple short scnDNA sequences obtained using broadly applicable primers.