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31.
ERWAN QUÉMÉRÉ BRIGITTE CROUAU‐ROY CLÉMENT RABARIVOLA EDWARD E. LOUIS JR LOUNÈS CHIKHI 《Molecular ecology》2010,19(8):1606-1621
Habitat fragmentation may strongly reduce individuals’ dispersal among resource patches and hence influence population distribution and persistence. We studied the impact of landscape heterogeneity on the dispersal of the golden‐crowned sifaka (Propithecus tattersalli), an endangered social lemur species living in a restricted and highly fragmented landscape. We combined spatial analysis and population genetics methods to describe population units and identify the environmental factors which best predict the rates and patterns of genetic differentiation within and between populations. We used non‐invasive methods to genotype 230 individuals at 13 microsatellites in all the main forest fragments of its entire distribution area. Our analyses suggest that the Manankolana River and geographical distance are the primary structuring factors, while a national road crossing the region does not seem to impede gene flow. Altogether, our results are in agreement with a limited influence of forest habitat connectivity on gene flow patterns (except for North of the species’ range), suggesting that dispersal is still possible today among most forest patches for this species. Within forest patches, we find that dispersal is mainly among neighbouring social groups, hence confirming previous behavioural observations. 相似文献
32.
LAURE GAUFICHON CÉLINE MASCLAUX‐DAUBRESSE GUILLAUME TCHERKEZ MICHÈLE REISDORF‐CREN YUKIKO SAKAKIBARA TOSHIHARU HASE GILLES CLÉMENT JEAN‐CHRISTOPHE AVICE OLIVIER GRANDJEAN ANNE MARMAGNE STÉPHANIE BOUTET‐MERCEY MARIANNE AZZOPARDI FABIENNE SOULAY AKIRA SUZUKI 《Plant, cell & environment》2013,36(2):328-342
We investigated the function of ASN2, one of the three genes encoding asparagine synthetase (EC 6.3.5.4), which is the most highly expressed in vegetative leaves of Arabidopsis thaliana. Expression of ASN2 and parallel higher asparagine content in darkness suggest that leaf metabolism involves ASN2 for asparagine synthesis. In asn2‐1 knockout and asn2‐2 knockdown lines, ASN2 disruption caused a defective growth phenotype and ammonium accumulation. The asn2 mutant leaves displayed a depleted asparagine and an accumulation of alanine, GABA, pyruvate and fumarate, indicating an alanine formation from pyruvate through the GABA shunt to consume excess ammonium in the absence of asparagine synthesis. By contrast, asparagine did not contribute to photorespiratory nitrogen recycle as photosynthetic net CO2 assimilation was not significantly different between lines under both 21 and 2% O2. ASN2 was found in phloem companion cells by in situ hybridization and immunolocalization. Moreover, lack of asparagine in asn2 phloem sap and lowered 15N flux to sinks, accompanied by the delayed yellowing (senescence) of asn2 leaves, in the absence of asparagine support a specific role of asparagine in phloem loading and nitrogen reallocation. We conclude that ASN2 is essential for nitrogen assimilation, distribution and remobilization (via the phloem) within the plant. 相似文献
33.
Nykiforuk CL Shewmaker C Harry I Yurchenko OP Zhang M Reed C Oinam GS Zaplachinski S Fidantsef A Boothe JG Moloney MM 《Transgenic research》2012,21(2):367-381
Gamma linolenic acid (GLA; C18:3Δ6,9,12 cis), also known as γ-Linolenic acid, is an important essential fatty acid precursor for the synthesis of very long chain polyunsaturated fatty acids and important pathways involved in human health. GLA is synthesized from linoleic acid (LA; C18:2Δ9,12 cis) by endoplasmic reticulum associated Δ6-desaturase activity. Currently sources of GLA are limited to a small number of plant species with poor agronomic properties, and therefore an economical and abundant commercial source of GLA in an existing crop is highly desirable. To this end, the seed oil of a high LA cultivated species of safflower (Carthamus tinctorius) was modified by transformation with Δ6-desaturase from Saprolegnia diclina resulting in levels exceeding 70% (v/v) of GLA. Levels around 50% (v/v) of GLA in seed oil was achieved when Δ12-/Δ6-desaturases from Mortierella alpina was over-expressed in safflower cultivars with either a high LA or high oleic (OA; C18:1Δ9 cis) background. The differences in the overall levels of GLA suggest the accumulation of the novel fatty acid was not limited by a lack of incorporation into the triacylgylcerol backbone (>66% GLA achieved), or correlated with gene dosage (GLA levels independent of gene copy number), but rather reflected the differences in Δ6-desaturase activity from the two sources. To date, these represent the highest accumulation levels of a newly introduced fatty acid in a transgenic crop. Events from these studies have been propagated and recently received FDA approval for commercialization as Sonova?400. 相似文献
34.
Smeeta Shrestha Yang Sun Thomas Lufkin Petra Kraus Yuzuan Or Yenni A. Garcia Naihsuan Guy Paola Ramos Marc B. Cox Fiona Tay Valerie CL Lin 《International journal of biological sciences》2015,11(4):434-447
Tetratricopeptide repeat domain 9A (TTC9A) is a target gene of estrogen and progesterone. It is over-expressed in breast cancer. However, little is known about the physiological function of TTC9A. The objectives of this study were to establish a Ttc9a knockout mouse model and to study the consequence of Ttc9a gene inactivation. The Ttc9a targeting vector was generated by replacing the Ttc9a exon 1 with a neomycin cassette. The mice homozygous for Ttc9a exon 1 deletion appear to grow normally and are fertile. However, further characterization of the female mice revealed that Ttc9a deficiency is associated with greater body weight, bigger thymus and better mammary development in post-pubertal mice. Furthermore, Ttc9a deficient mammary gland was more responsive to estrogen treatment with greater mammary ductal lengthening, ductal branching and estrogen target gene induction. Since Ttc9a is induced by estrogen in estrogen target tissues, these results suggest that Ttc9a is a negative regulator of estrogen function through a negative feedback mechanism. This is supported by in vitro evidence that TTC9A over-expression attenuated ERα activity in MCF-7 cells. Although TTC9A does not bind to ERα or its chaperone protein Hsp90 directly, TTC9A strongly interacts with FKBP38 and FKBP51, both of which interact with ERα and Hsp90 and modulate ERα activity. It is plausible therefore that TTC9A negatively regulates ERα activity through interacting with co-chaperone proteins such as FKBP38 and FKBP51. 相似文献
35.
Germana B Rona Natalia P Almeida Gilson C Santos Jr Tatiana KS Fidalgo Fabio CL Almeida Elis CA Eleutherio Anderson S Pinheiro 《Journal of cellular biochemistry》2019,120(4):5377-5385
NSD3s, the proline-tryptophan-tryptophan-proline (PWWP) domain-containing, short isoform of the human oncoprotein NSD3, displays high transforming properties. Overexpression of human NSD3s or the yeast protein Pdp3 in Saccharomyces cerevisiae induces similar metabolic changes, including increased growth rate and sensitivity to oxidative stress, accompanied by decreased oxygen consumption. Here, we set out to elucidate the biochemical pathways leading to the observed metabolic phenotype by analyzing the alterations in yeast metabolome in response to NSD3s or Pdp3 overexpression using 1H nuclear magnetic resonance (NMR) metabolomics. We observed an increase in aspartate and alanine, together with a decrease in arginine levels, on overexpression of NSD3s or Pdp3, suggesting an increase in the rate of glutaminolysis. In addition, certain metabolites, including glutamate, valine, and phosphocholine were either NSD3s or Pdp3 specific, indicating that additional metabolic pathways are adapted in a protein-dependent manner. The observation that certain metabolic pathways are differentially regulated by NSD3s and Pdp3 suggests that, despite the structural similarity between their PWWP domains, the two proteins act by unique mechanisms and may recruit different downstream signaling complexes. This study establishes for the first time a functional link between the human oncoprotein NSD3s and cancer metabolic reprogramming. 相似文献
36.
Chuanchuan Li Xia Meng Zhen Zhang Yanyan Wang Xiaomin Song Wenjia Wang Rongguang Zhang Yun Zhao Catherine CL Wong Zhaocai Zhou 《The EMBO journal》2015,34(23):2903-2920
RIG‐I is a well‐studied sensor of viral RNA that plays a key role in innate immunity. p97 regulates a variety of cellular events such as protein quality control, membrane reassembly, DNA repair, and the cell cycle. Here, we report a new role for p97 with Npl4‐Ufd1 as its cofactor in reducing antiviral innate immune responses by facilitating proteasomal degradation of RIG‐I. The p97 complex is able to directly bind both non‐ubiquitinated RIG‐I and the E3 ligase RNF125, promoting K48‐linked ubiquitination of RIG‐I at residue K181. Viral infection significantly strengthens the interaction between RIG‐I and the p97 complex by a conformational change of RIG‐I that exposes the CARDs and through K63‐linked ubiquitination of these CARDs. Disruption of the p97 complex enhances RIG‐I antiviral signaling. Consistently, administration of compounds targeting p97 ATPase activity was shown to inhibit viral replication and protect mice from vesicular stomatitis virus (VSV) infection. Overall, our study uncovered a previously unrecognized role for the p97 complex in protein ubiquitination and revealed the p97 complex as a potential drug target in antiviral therapy. 相似文献
37.
Mapping quantitative trait loci (QTLs) for fatty acid composition in an interspecific cross of oil palm 总被引:2,自引:0,他引:2
Rajinder Singh Soon G Tan Jothi M Panandam Rahimah Abdul Rahman Leslie CL Ooi Eng-Ti L Low Mukesh Sharma Johannes Jansen Suan-Choo Cheah 《BMC plant biology》2009,9(1):114-19
Background
Marker Assisted Selection (MAS) is well suited to a perennial crop like oil palm, in which the economic products are not produced until several years after planting. The use of DNA markers for selection in such crops can greatly reduce the number of breeding cycles needed. With the use of DNA markers, informed decisions can be made at the nursery stage, regarding which individuals should be retained as breeding stock, which are satisfactory for agricultural production, and which should be culled. The trait associated with oil quality, measured in terms of its fatty acid composition, is an important agronomic trait that can eventually be tracked using molecular markers. This will speed up the production of new and improved oil palm planting materials. 相似文献38.
Summary Meiotic reinitiation has been studied in Locusta migratoria and Palaemon serratus in relation to the titre of free ecdysteroids present in the maturing oocyte. In both species meiotic reinitiation is characterized by two meiotic arrests, in prophase I and in metaphase I, and the first meiotic resumption which leads to germinal vesicle breakdown (GVBD) is correlated with increasing titres of ecdysteroids in the oocyte. Meiotic reinitiation has been successfully triggered in the oocytes of both species by incubation with physiological doses of ecdysteroids. 相似文献
39.
Marnie L. Fusco Takao Hashiguchi Robyn Cassan Julia E. Biggins Charles D. Murin Kelly L. Warfield Sheng Li Frederick W. Holtsberg Sergey Shulenin Hong Vu Gene G. Olinger Do H. Kim Kevin J. Whaley Larry Zeitlin Andrew B. Ward Cory Nykiforuk M. Javad Aman Jody Berry Erica Ollmann Saphire 《PLoS pathogens》2015,11(6)
The filoviruses, which include the marburg- and ebolaviruses, have caused multiple outbreaks among humans this decade. Antibodies against the filovirus surface glycoprotein (GP) have been shown to provide life-saving therapy in nonhuman primates, but such antibodies are generally virus-specific. Many monoclonal antibodies (mAbs) have been described against Ebola virus. In contrast, relatively few have been described against Marburg virus. Here we present ten mAbs elicited by immunization of mice using recombinant mucin-deleted GPs from different Marburg virus (MARV) strains. Surprisingly, two of the mAbs raised against MARV GP also cross-react with the mucin-deleted GP cores of all tested ebolaviruses (Ebola, Sudan, Bundibugyo, Reston), but these epitopes are masked differently by the mucin-like domains themselves. The most efficacious mAbs in this panel were found to recognize a novel “wing” feature on the GP2 subunit that is unique to Marburg and does not exist in Ebola. Two of these anti-wing antibodies confer 90 and 100% protection, respectively, one hour post-exposure in mice challenged with MARV. 相似文献
40.
Michele H Jones Jamie M Keck Catherine CL Wong Tao Xu John R Yates Mark Winey 《Cell cycle (Georgetown, Tex.)》2011,10(20):3435-3440
Phosphorylation of proteins is an important mechanism used to regulate most cellular processes. Recently, we completed an extensive phosphoproteomic analysis of the core proteins that constitute the Saccharomyces cerevisiae centrosome. Here, we present a study of phosphorylation sites found on the mitotic exit network (MEN) proteins, most of which are associated with the cytoplasmic face of the centrosome. We identified 55 sites on Bfa1, Cdc5, Cdc14 and Cdc15. Eight sites lie in cyclin-dependent kinase motifs (Cdk, S/T-P), and 22 sites are completely conserved within fungi. More than half of the sites were found in centrosomes from mitotic cells, possibly in preparation for their roles in mitotic exit. Finally, we report phosphorylation site information for other important cell cycle and regulatory proteins.Key words: in vivo phosphorylation, yeast centrosome, mitotic exit network (MEN), cell cycle, protein kinase, Cdk (cyclin-dependent kinase)/Cdc28, Plk1 (polo-like kinase)/Cdc5Reversible protein phosphorylation leads to changes in targeting, structure and stability of proteins and is used widely to modulate biochemical reactions in the cell. We are interested in phosphoregulation of centrosome duplication and function in the yeast Saccharomyces cerevisiae. Centrosomes nucleate microtubules and, upon duplication during the cell cycle, form the two poles of the bipolar mitotic spindle used to segregate replicated chromosomes into the two daughter cells. Timing and spatial cues are highly regulated to ensure that elongation of the mitotic spindle and separation of sister chromatids occur prior to progression into late telophase and initiation of mitotic exit. The mitotic exit network (MEN) regulates this timing through a complex signaling cascade activated at the centrosome that triggers the end of mitosis, ultimately through mitotic cyclin-dependent kinase (Cdk) inactivation (reviewed in ref. 1).The major components of the MEN pathway (Fig. 1) are a Ras-like GTPase (Tem1), an activator (Lte1) with homology to nucleotide exchange factors, a GTPase-activating protein (GAP) complex (Bfa1/Bub2), several protein kinases [Cdc5 (Plk1 in humans), Cdc15 and Dbf2/Mob1] and Cdc14 phosphatase (reviewed in ref. 2–5). Tem1 initiates the signal for the MEN pathway when switched to a GTP-active state. Prior to activation at anaphase, it is held at the centrosome in an inactive GDP-bound state by an inhibiting GAP complex, Bfa1/Bub2.6 The Bfa1/Bub2 complex and the inactive Tem1 are localized at the mother centrosome destined to move into the budded cell upon chromosome segregation, whereas the activator Lte1 is localized at the tip of the budded cell. These separate localizations ensure that Lte1 and Tem1 only interact in late anaphase, when the mitotic spindle elongates.7,8 Lte1 has been thought to activate Tem1 as a nucleotide exchange factor, although more recent evidence suggests that it may instead affect Bfa1 localization.9 In addition, full activation of Tem1 is achieved through Cdc5 phosphorylation of the negative regulator Bfa1 10 and potentially through phosphorylation of Lte1. GTP-bound Tem1 is then able to recruit Cdc15 to the centrosome, allowing for Dbf2 activation.3 The final step in the MEN pathway is release of Cdc14 from the nucleolus, which is at least partially due to phosphorylation by Dbf211 an leads to mitotic cyclin degradation and inactivation of the mitotic kinase.2Open in a separate windowFigure 1Schematic representation of the MEN proteins and pathway. MEN protein localization is shown within a metaphase cell when mitotic exit is inhibited and in a late anaphase cell when mitotic exit is initiated. Primary inhibition and activation events are described below the cells.Recently, we performed a large-scale analysis of phosphorylation sites on the 18 core yeast centrosomal proteins present in enriched centrosomal preparations.12 In total, we mapped 297 sites on 17 of the 18 proteins and described their cell cycle regulation, levels of conservation and demonstrated defects in centrosome assembly and function resulting from mutating selected sites. MEN proteins were also identified in the centrosome preparations. This was expected, because Nud1, one of the 18 core centrosome components, is known to recruit several MEN proteins to the centrosome13 as part of its function in mitotic exit.14,15 As phosphorylation is essential to several steps in the MEN pathway, beginning with recruitment of Bfa1/Bub2 by phosphorylated Nud1,15 we were interested in mapping in vivo phosphorylation sites on the MEN proteins associated with centrosomes and identifying when they occur during the cell cycle.We combined centrosome enrichment with mass spectrometry analysis to examine phosphorylation from asynchronously growing cells.12 Centrosomes were also prepared from cells arrested in G1 and mitosis12 to monitor potentially cell cycle-regulated sites. We obtained significant coverage of a number of the MEN proteins, several of which have human homologs (and33, column 1), of which eight sites lie within Cdk/Cdc28 motifs [S/T(P)], (23 Mob1 and Dbf2 are known phosphoproteins24 for which we observed peptide coverage but no phosphorylation. Surprisingly, we did not detect phosphorylation on Bub2 despite the high peptide coverage; it is possible that the mitotic centrosome preparations (using a Cdc20 depletion protocol) affect the phosphorylation state of Bub2, as Bub2 is required for mitotic exit arrest in cdc20 mutants.25 Additionally, specific phosphorylation sites have not been mapped on Bub2, suggesting that modifications on this protein may be difficult to observe by mass spectrometry. Lte1 does not localize to the centrosome, and we did not recover Lte1 peptides in our preparations. Many phosphorylation events on MEN proteins were observed in mitotic centrosomal preparations, most likely in preparation for their subsequent role in exit from mitosis (MEN Protein Sequence Coverage Total Sites S/T (P) Sites Human Homologs Bfa1 98% 35 2 N/A Cdc14 80% 10 2 CDC14A, 14B2 Cdc15 12% 3 1 MST1, STK4 Cdc5 41% 7 3 PLK1, PLK2, PLK3 Bub2 67% - - N/A Tem1 18% - - RAB22, RAB22A Mob1 13% - - MOB1B, 1A, 2A, 2B Dbf2 2% - - STK38, LATS1 TOTAL 55 8