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311.
Horne-Badovinac S Lin D Waldron S Schwarz M Mbamalu G Pawson T Jan Y Stainier DY Abdelilah-Seyfried S 《Current biology : CB》2001,11(19):1492-1502
BACKGROUND: The Par-3/Par-6/aPKC complex is a key regulator of cell polarity in a number of systems. In Drosophila, this complex acts at the zonula adherens (adherens junctions) to establish epithelial polarity and helps to orient the mitotic spindle during asymmetric neuroblast divisions. In MDCKII cells, this complex localizes to the zonula occludens (tight junctions) and appears to regulate epithelial polarity. However, the in vivo role of this complex during vertebrate embryogenesis is not known, due to the lack of relevant mutations. RESULTS: We have positionally cloned the zebrafish heart and soul (has) mutation, which affects the morphogenesis of several embryonic tissues, and show that it encodes atypical protein kinase C lambda (aPKC lambda). We find that loss of aPKC lambda affects the formation and maintenance of the zonula adherens in the polarized epithelia of the retina, neural tube, and digestive tract, leading to novel phenotypes, such as the formation of multiple lumens in the developing intestine. In addition, has mutants display defects in gut looping and endodermal organ morphogenesis that appear to be independent of the defects in epithelial polarity. Finally, we show that loss of aPKC lambda leads to defects in spindle orientation during progenitor cell divisions in the neural retina. CONCLUSIONS: Our results show that aPKC lambda is required for the formation and maintenance of the zonula adherens during early epithelial development in vertebrates and demonstrate a previously undescribed yet critical role for this protein in organ morphogenesis. Furthermore, our studies identify the first genetic locus regulating the orientation of cell division in vertebrates. 相似文献
312.
Previous mechanical studies using algae have concentrated on cell extension and growth using creep-type experiments, but
there appears to be no published study of their failure properties. The mechanical strength of single large internode cell
walls (up to 2 mm diameter and 100 mm in length) of the charophyte (giant alga) Chara corallina was determined by dissecting cells to give sheets of cell wall, which were then notched and fractured under tension. Tensile
tests, using a range of notch sizes, were conducted on cell walls of varying age and maturity to establish their notch sensitivity
and to investigate the propagation of cracks in plant cell walls. The thickness and stiffness of the walls increased with
age whereas their strength was little affected. The strength of unnotched walls was estimated as 47 ± 13 MPa, comparable to
that of some grasses but an order of magnitude higher than that published for model bacterial cellulose composite walls. The
strength was notch-sensitive and the critical stress intensity factor K
1c was estimated to be 0.63 ± 0.19 MNm−3/2, comparable to published values for grasses.
Received: 4 April 2000 / Accepted: 21 July 2000 相似文献
313.
Waldron RT Innamorati G Torres-Marquez ME Sinnett-Smith J Rozengurt E 《Cellular signalling》2012,24(4):914-921
Protein kinase D (PKD) is activated within cells by stimulation of multiple G protein coupled receptors (GPCR). Earlier studies demonstrated a role for PKC to mediate rapid activation loop phosphorylation-dependent PKD activation. Subsequently, a novel PKC-independent pathway in response to Gαq-coupled GPCR stimulation was identified. Here, we examined further the specificity and PKC-dependence of PKD activation using COS-7 cells cotransfected with different Gq-family Gα and stimulated with aluminum fluoride (AlF4−). PKD activation was measured by kinase assays, and Western blot analysis of activation loop sites Ser744, a prominent and rapid PKC transphosphorylation site, and Ser748, a site autophosphorylated in the absence of PKC signaling. Treatment with AlF4− potently induced PKD activation and Ser744 and Ser748 phosphorylation, in the presence of cotransfected Gαq, Gα11, Gα14 or Gα15. These treatments achieved PKD activation loop phosphorylation similar to the maximal levels obtained by stimulation with the phorbol ester, PDBu. Preincubation with the PKC inhibitor GF1 potently blocked Gα11-, Gα14-, and Gα15-mediated enhancement of Ser748 phosphorylation induced by AlF4−, and largely abolished Ser744 phosphorylation. In contrast, Ser748 phosphorylation was almost completely intact, and Ser744 phosphorylation was significantly activated in cells cotransfected with Gαq. Importantly, the differential Ser748 phosphorylation was also promoted by treatment of Swiss 3T3 cells with Pasteurella multocida toxin, a selective activator of Gαq but not Gα11. Taken together, our results suggest that Gαq, but not the closely related Gα11, promotes PKD activation in response to GPCR ligands in a unique manner leading to PKD autophosphorylation at Ser748. 相似文献
314.
Merali Z Mayer MJ Parker ML Michael AJ Smith AC Waldron KW 《Physiologia plantarum》2012,145(2):260-274
Tobacco plants (Nicotiana tabacum cv XHFD 8) were genetically modified to express a bacterial 4-hydroxycinnamoyl-CoA hydratase/lyase (HCHL) enzyme which is active with intermediates of the phenylpropanoid pathway. We have previously shown that HCHL expression in tobacco stem resulted in various pleiotropic effects, indicative of a reduction in the carbon flux through the phenylpropanoid pathway, accompanied by an abnormal phenotype. Here, we report that in addition to the reduction in lignin and phenolic biosynthesis, HCHL expression also resulted in several gross morphological changes in poorly lignified tissue, such as abnormal mesophyll and palisade. The effect of HCHL expression was also noted in lignin-free single cells, with suspension cultures displaying an altered shape and different growth patterns. Poorly/non-lignified cell walls also exhibited a greater ease of alkaline extractability of simple phenolics and increased levels of incorporation of vanillin and vanillic acid. However, HCHL expression had no significant effect on the cell wall carbohydrate chemistry of these tissues. Evidence from this study suggests that changes in the transgenic lines result from a reduction in phenolic intermediates which have an essential role in maintaining structural integrity of low-lignin or lignin-deprived cell walls. These results emphasize the importance of the intermediates and products of phenylpropanoid pathway in modulating aspects of normal growth and development of tobacco. Analysis of these transgenic plants also shows the plasticity of the lignification process and reveals the potential to bioengineer plants with reduced phenolics (without deleterious effects) which could enhance the bioconversion of lignocellulose for industrial applications. 相似文献
315.
Alona Armstrong Susan Waldron Jeanette Whitaker Nicholas J. Ostle 《Global Change Biology》2014,20(6):1699-1706
Global energy demand is increasing as greenhouse gas driven climate change progresses, making renewable energy sources critical to future sustainable power provision. Land‐based wind and solar electricity generation technologies are rapidly expanding, yet our understanding of their operational effects on biological carbon cycling in hosting ecosystems is limited. Wind turbines and photovoltaic panels can significantly change local ground‐level climate by a magnitude that could affect the fundamental plant–soil processes that govern carbon dynamics. We believe that understanding the possible effects of changes in ground‐level microclimates on these phenomena is crucial to reducing uncertainty of the true renewable energy carbon cost and to maximize beneficial effects. In this Opinions article, we examine the potential for the microclimatic effects of these land‐based renewable energy sources to alter plant–soil carbon cycling, hypothesize likely effects and identify critical knowledge gaps for future carbon research. 相似文献
316.
MG Oliveira Alves CFL Carta M-E Padín-Iruegas M Pérez-Sayáns JM Suarez-Peñaranda JS Issa 《Biotechnic & histochemistry》2016,91(4):263-268
We investigated the gene and protein expressions of V-type ATPase protein subunit C1 (ATP6V1C1) in cases of oral squamous cell carcinoma (OSCC) and contralateral normal mucosa in smokers, nonsmokers and former smokers. Subjects were separated into five groups of 15: group 1, smokers with OSCC; group 2, normal contralateral mucosa of OSCC patients; group 3, chronic smokers; group 4, former smokers who had stopped smoking 1 year earlier; group 5, individuals who had never smoked. Exfoliative cytology specimens from oral mucosa of smokers, former smokers and nonsmokers showed normal gene and protein expression. We found significantly greater gene expression in the OSCC group than in the nonsmoker groups. No difference in gene expression was observed between normal contralateral mucosa and nonsmoker groups, smoker and nonsmoker groups or former smoker and nonsmoker groups. We observed intense immunostaining for ATP6V1C1 protein in all cases of OSCC and weak or no staining in smoker, former smoker and nonsmoker groups. Significantly greater expression of ATP6V1C1 protein was observed in the OSCC group compared to the other groups, which supports the role of ATP6V1C1 in effecting changes associated with oral cancer. Analysis of the mucosae of chronic smokers, former smokers and the normal contralateral mucosa of patients with OSCC showed unaltered ATP6V1C1 gene and protein expression. Early stages of carcinogenesis, represented by altered epithelium of chronic smokers, had neither gene nor protein alterations as seen in OSCC. Therefore, we infer that the changes in ATP6V1C1 occur during later stages of carcinogenesis. Our preliminary study provides a basis for future studies of using ATP6V1C1 levels for detecting early stage OSCC. 相似文献
317.
James Sinnett-Smith Rodrigo Jacamo Robert Kui YunZu M. Wang Steven H. Young Osvaldo Rey Richard T. Waldron Enrique Rozengurt 《The Journal of biological chemistry》2009,284(20):13434-13445
Rapid protein kinase D (PKD) activation and phosphorylation via protein
kinase C (PKC) have been extensively documented in many cell types cells
stimulated by multiple stimuli. In contrast, little is known about the role
and mechanism(s) of a recently identified sustained phase of PKD activation in
response to G protein-coupled receptor agonists. To elucidate the role of
biphasic PKD activation, we used Swiss 3T3 cells because PKD expression in
these cells potently enhanced duration of ERK activation and DNA synthesis in
response to Gq-coupled receptor agonists. Cell treatment with the
preferential PKC inhibitors GF109203X or Gö6983 profoundly inhibited PKD
activation induced by bombesin stimulation for <15 min but did not prevent
PKD catalytic activation induced by bombesin stimulation for longer times
(>60 min). The existence of sequential PKC-dependent and PKC-independent
PKD activation was demonstrated in 3T3 cells stimulated with various
concentrations of bombesin (0.3–10 nm) or with vasopressin, a
different Gq-coupled receptor agonist. To gain insight into the
mechanisms involved, we determined the phosphorylation state of the activation
loop residues Ser744 and Ser748. Transphosphorylation
targeted Ser744, whereas autophosphorylation was the predominant
mechanism for Ser748 in cells stimulated with Gq-coupled
receptor agonists. We next determined which phase of PKD activation is
responsible for promoting enhanced ERK activation and DNA synthesis in
response to Gq-coupled receptor agonists. We show, for the first
time, that the PKC-independent phase of PKD activation mediates prolonged ERK
signaling and progression to DNA synthesis in response to bombesin or
vasopressin through a pathway that requires epidermal growth factor
receptor-tyrosine kinase activity. Thus, our results identify a novel
mechanism of Gq-coupled receptor-induced mitogenesis mediated by
sustained PKD activation through a PKC-independent pathway.The understanding of the mechanisms that control cell proliferation
requires the identification of the molecular pathways that govern the
transition of quiescent cells into the S phase of the cell cycle. In this
context the activation and phosphorylation of protein kinase D
(PKD),4 the founding
member of a new protein kinase family within the
Ca2+/calmodulin-dependent protein kinase (CAMK) group and separate
from the previously identified PKCs (for review, see Ref.
1), are attracting intense
attention. In unstimulated cells, PKD is in a state of low catalytic (kinase)
activity maintained by autoinhibition mediated by the N-terminal domain, a
region containing a repeat of cysteinerich zinc finger-like motifs and a
pleckstrin homology (PH) domain
(1–4).
Physiological activation of PKD within cells occurs via a
phosphorylation-dependent mechanism first identified in our laboratory
(5–7).
In response to cellular stimuli
(1), including phorbol esters,
growth factors (e.g. PDGF), and G protein-coupled receptor (GPCR)
agonists (6,
8–16)
that signal through Gq, G12, Gi, and Rho
(11,
15–19),
PKD is converted into a form with high catalytic activity, as shown by in
vitro kinase assays performed in the absence of lipid co-activators
(5,
20).During these studies multiple lines of evidence indicated that PKC activity
is necessary for rapid PKD activation within intact cells. For example, rapid
PKD activation was selectively and potently blocked by cell treatment with
preferential PKC inhibitors (e.g. GF109203X or Gö6983) that do
not directly inhibit PKD catalytic activity
(5,
20), implying that PKD
activation in intact cells is mediated directly or indirectly through PKCs.
Many reports demonstrated the operation of a rapid PKC/PKD signaling cascade
induced by multiple GPCR agonists and other receptor ligands in a range of
cell types (for review, see Ref.
1). Our previous studies
identified Ser744 and Ser748 in the PKD activation loop
(also referred as activation segment or T-loop) as phosphorylation sites
critical for PKC-mediated PKD activation
(1,
4,
7,
17,
21). Collectively, these
findings demonstrated the existence of a rapidly activated PKC-PKD protein
kinase cascade(s). In a recent study we found that the rapid PKC-dependent PKD
activation was followed by a late, PKC-independent phase of catalytic
activation and phosphorylation induced by stimulation of the bombesin
Gq-coupled receptor ectopically expressed in COS-7 cells
(22). This study raised the
possibility that PKD mediates rapid biological responses downstream of PKCs,
whereas, in striking contrast, PKD could mediate long term responses through
PKC-independent pathways. Despite its potential importance for defining the
role of PKC and PKD in signal transduction, this hypothesis has not been
tested in any cell type.Accumulating evidence demonstrates that PKD plays an important role in
several cellular processes and activities, including signal transduction
(14,
23–25),
chromatin organization (26),
Golgi function (27,
28), gene expression
(29–31),
immune regulation (26), and
cell survival, adhesion, motility, differentiation, DNA synthesis, and
proliferation (for review, see Ref.
1). In Swiss 3T3 fibroblasts, a
cell line used extensively as a model system to elucidate mechanisms of
mitogenic signaling
(32–34),
PKD expression potently enhances ERK activation, DNA synthesis, and cell
proliferation induced by Gq-coupled receptor agonists
(8,
14). Here, we used this model
system to elucidate the role and mechanism(s) of biphasic PKD activation.
First, we show that the Gq-coupled receptor agonists bombesin and
vasopressin, in contrast to phorbol esters, specifically induce PKD activation
through early PKC-dependent and late PKC-independent mechanisms in Swiss 3T3
cells. Subsequently, we demonstrate for the first time that the
PKC-independent phase of PKD activation is responsible for promoting ERK
signaling and progression to DNA synthesis through an epidermal growth factor
receptor (EGFR)-dependent pathway. Thus, our results identify a novel
mechanism of Gq-coupled receptor-induced mitogenesis mediated by
sustained PKD activation through a PKC-independent pathway. 相似文献
318.
AFM Investigations of Cellulose Fibers in Bintje Potato (Solanum tuberosum L.) Cell Wall Fragments 总被引:1,自引:0,他引:1
Atomic force microscopy (AFM) has been used to image the cellulose networks in moist fragments of the cell walls of Bintje potato (Solanum tuberosum L.). The interfiber spacing in hydrated native cell wall fragments was found to be 26.2 nm. This value is consistent with published estimates of the contour length of xyloglucan cross-links determined by transmission electron microscopy (TEM) studies of cell walls. Sequential extraction of the pectin using CDTA and Na2CO3 led to shrinkage of the cell wall fragment and a reduction in interfiber spacing to 20.2 nm. Partial extraction of xyloglucan using 1 M KOH caused a small decrease in interfiber spacing to 19.5 nm. Finally, the almost complete removal of xyloglucan with 4 M KOH substantially reduced the interfiber spacing to 11 nm. The results are consistent with a model for the cell wall in which the cellulose–xyloglucan network is immersed in a swollen, hydrated pectin network. 相似文献
319.
Liane FM Finotelo Paulo JS Amaral Julio C Pieczarka Edivaldo HC de Oliveira Alcides Pissinati Michaela Neusser Stephan Müller Cleusa Y Nagamachi 《BMC evolutionary biology》2010,10(1):189
Background
The New World monkey (Platyrrhini) subfamily Pitheciinae is represented by the genera Pithecia, Chiropotes and Cacajao. In this work we studied the karyotypes of Pithecia irrorata (2n = 48) and Cacajao calvus rubicundus (2n = 45 in males and 2n = 46 in females) by G- and C-banding, NOR staining and chromosome painting using human and Saguinus oedipus whole chromosome probes. The karyotypes of both species were compared with each other and with Chiropotes utahicki (2n = 54) from the literature. 相似文献320.
Autologous disc cell implantation, growth factors and gene therapy appear to be promising therapies for disc regeneration. Unfortunately, the replicative lifespan and growth kinetics of human nucleus pulposus (NP) cells related to host age are unclear. We investigated the potential relations among age, replicative lifespan and growth rate of NP cells, and determined the age range that is suitable for cell-based biological therapies for degenerative disc diseases. We used NP tissues classified by decade into five age groups: 30s, 40s, 50s, 60s and 70s. The mean cumulative population doubling level (PDL) and population doubling rate (PDR) of NP cells were assessed by decade. We also investigated correlations between cumulative PDL and age, and between PDR and age. The mean cumulative PDL and PDR decreased significantly in patients in their 60s. The mean cumulative PDL and PDR in the younger groups (30s, 40s and 50s) were significantly higher than those in the older groups (60s and 70s). There also were significant negative correlations between cumulative PDL and age, and between PDR and age. We found that the replicative lifespan and growth rate of human NP cells decreased with age. The replicative potential of NP cells decreased significantly in patients 60 years old and older. Young individuals less than 60 years old may be suitable candidates for NP cell-based biological therapies for treating degenerative disc diseases. 相似文献