Douglas Kershaw scite author profile

Abstract. Monoclonal antibodies against the ll0-kD component of the yeast spindle pole body (SPB) were used to clone the corresponding gene SPC110. SPC110 is identical to NUF1 (Mirzayan, C., C. S. Copeland, and M. Snyder. 1992. J. Cell Biol. 116:1319-1332. SPC110/NUF1 has an MluI cell cycle box consensus sequence in its putative promoter region, and we found that the transcript was cell cycle regulated in a similar way to other MluI-regulated transcripts. Spcll0p/Nuflp has a long central region with a predicted coiled-coil structure. We expressed this region in Escherichia coli and showed by rotary shadowing that rods of the predicted length were present. The ll0-kD component is localized in the SPB to the gap between the central plaque and the sealed ends of the nuclear microtubules near the inner plaque (Rout, M., and J. V. Kilmartin. 1990. J. Cell Biol. 111:1913-1927. We found that rodlike structures bridge this gap. When truncations of SPC110 with deletions in the coiled-coil region of the protein replaced the wild-type gene, the gap between the central plaque and the ends of the microtubules decreased in proportion to the size of the deletion. This suggests that Spcll0p connects these two parts of the SPB together and that the coiled-coil domain acts as a spacer element.

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Dipeptidyl peptidase IV, a kidney brush-border serine peptidase

Kenny¹,

Booth²,

George³

et al. 1976

241

122

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Dipeptidyl peptidase IV, an enzyme that releases dipeptides from substrates with N-terminal sequences of the forms X-Pro-Y or X-Ala-Y, was purified 300-fold from pig kidney cortex. The kidney is the main source of the enzyme, where it is one of the major microvillus-membrane proteins. Several other tissues contained demonstrable activity against the usual assay substrate glycylproline 2-naphthylamide. In the small intestine this activity was greatly enriched in the microvillus fraction. In all tissues examined, the activity was extremely sensitive to inhibition by di-isopropyl phosphorofluoridate (Dip-F), but relatively resistant to inhibition by phenylmethylsulphonyl fluoride. It is a serine proteinase which may be covalently labelled with [32P]Dip-F, and is the only enzyme of this class in the microvillus membrane. The apparent subunit mol.wt. estimated by sodium dodecyl-sulphate/polyacrylamide-gel electrophoresis and by titration with [32P]Dip-F was 130 000. Gel-filtration and sedimentation-equilibrium methods gave values in the region of 280 000, which is consistent with a dimeric structure, a conclusion supported by electron micrographs of the purified enzyme. Among other well-characterized serine proteinases, this enzyme is unique in its membrane location and its large subunit size. Investigation of the mode of attack of the peptidase on oligopeptides revealed that it could hydrolyse certain N-blocked peptides, e.g. Z-Gly-Pro-Leu-Gly-Pro. In this respect it is acting as an endopeptidase and as such may merit reclassification and renaming as microvillus-membrane serine peptidase.

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Axonal guidance defects in a Caenorhabditis elegans mutant reveal cell- extrinsic determinants of neuronal morphology

Hekimi

Kershaw

1993

J. Neurosci.

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Mutations in the gene unc-53 of Caenorhabditis elegans result in behavioral and anatomical abnormalities. Immunocytochemistry and electron microscopy revealed neuroanatomical defects in all main longitudinal nervous tracts. Whole tracts were found to be misguided in specific ways suggesting that unc-53 affects pioneering axons. The four lateral microtubule cells (LMs), which are probably pioneering neurons, were examined in greatest detail. In the mutants, the processes of the LMs leave their normal position on the body wall and terminate prematurely. Examination of five unc-53 alleles for penetrance and expressivity of these defects revealed a spatial restriction in the requirement for unc-53. The morphology and positioning of the branch of the posterior lateral microtubule cells (PLMs) were also examined. In wild-type animals, the PLM branches lack the ultrastructural specializations of the main process, which include large microtubules, apposition to the cuticle, and a polarized extracellular matrix (the mantle). Two differences were noted in unc-53 mutants. First, a majority of PLMs branch at random and display an abnormally enlarged branching point and branch cross section. The unusual branch morphologies correlate with branch position, rather than PLM length. Second, the ectopic branches display the specific ultrastructural features characteristic of the main process. Furthermore, after entering the ventral nerve cord, the abnormal branches constantly change position relative to the other processes and the hypodermis, retaining their specialized microtubules throughout, but displaying a mantle only when in direct contact with hypodermis. Taken together, these observations suggest that the differentiated features of the PLMs, including process length, branch position, intracellular branch morphology, and surrounding extracellular matrix, are locally specified by cell-extrinsic cues, some of which require unc-53.

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Proteins of the kidney microvillar membrane. Reconstitution of endopeptidase in liposomes shows that it is a short-stalked protein

Kenny¹,

Fulcher²,

McGill³

et al. 1983

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Pig kidney microvillar proteins were extracted with octyl beta-glucoside and reconstituted in liposomes prepared from microvillar lipids of known composition. Four peptidases, namely endopeptidase (EC 3.4.24.11), aminopeptidases N (EC 3.4.11.2) and A (EC 3.4.11.7) and dipeptidyl peptidase IV (EC 3.4.14.5), were shown to be reconstituted. At lipid/protein ratios greater than 4:1, about half the detergent-solubilized protein and nearly all of the activity of the four peptidases were reconstituted. Dissolution of the liposomes with Triton X-100 did not increase the activity of any of these peptidases, a result consistent with an asymmetric, 'right-side-out', orientation of these enzymes. When purified, endopeptidase was subjected to the same procedure; the two amphipathic forms of the enzyme (the detergent form and the trypsin-treated detergent form) were fully reconstituted. The amphiphilic form, purified after toluene/trypsin treatment, failed to reconstitute. Electron microscopy of microvilli showed that the appearance of the surface particles was profoundly altered by treatment with papain. Before treatment, the microvilli were coated with particles of stalk lengths ranging from 2.5 to 9 nm. After papain treatment nearly all the particles had stalks of 2-3 nm. Reconstituted microvillar proteins in liposomes showed the same heterogeneity of stalk length. In contrast, liposomes containing reconstituted endopeptidase revealed a very homogeneous population of particles of stalk length 2 nm. Since the smallest dimension of a papain molecule is 3.7 nm, the ability of papain, and other proteinases of similar molecular size, to release microvillar enzymes is crucially affected by the length of the junctional peptide that constitutes the stalk of this type of membrane protein.

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Handed Asymmetry, Handedness Reversal and Mechanisms of Cell Fate Determination in Nematode Embryos

Wood

Kershaw

2007

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Douglas Kershaw

A spacer protein in the Saccharomyces cerevisiae spindle poly body whose transcript is cell cycle-regulated.

Dipeptidyl peptidase IV, a kidney brush-border serine peptidase

Axonal guidance defects in a Caenorhabditis elegans mutant reveal cell- extrinsic determinants of neuronal morphology

Proteins of the kidney microvillar membrane. Reconstitution of endopeptidase in liposomes shows that it is a short-stalked protein

Handed Asymmetry, Handedness Reversal and Mechanisms of Cell Fate Determination in Nematode Embryos

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