Li Xie scite author profile

Phosphoenolpyruvate carboxylase (PEPC) is a crucial enzyme that catalyzes an irreversible primary metabolic reaction in plants. Previous studies have used transgenic plants expressing ectopic PEPC forms with diminished feedback inhibition to examine the role of PEPC in carbon and nitrogen metabolism. To date, the in vivo role of PEPC in carbon and nitrogen metabolism has not been analyzed in plants. In this study, we examined the role of PEPC in plants, demonstrating that PPC1 and PPC2 were highly expressed genes encoding PEPC in Arabidopsis (Arabidopsis thaliana) leaves and that PPC1 and PPC2 accounted for approximately 93% of total PEPC activity in the leaves. A double mutant, ppc1/ppc2, was constructed that exhibited a severe growth-arrest phenotype. The ppc1/ppc2 mutant accumulated more starch and sucrose than wild-type plants when seedlings were grown under normal conditions. Physiological and metabolic analysis revealed that decreased PEPC activity in the ppc1/ppc2 mutant greatly reduced the synthesis of malate and citrate and severely suppressed ammonium assimilation. Furthermore, nitrate levels in the ppc1/ppc2 mutant were significantly lower than those in wild-type plants due to the suppression of ammonium assimilation. Interestingly, starch and sucrose accumulation could be prevented and nitrate levels could be maintained by supplying the ppc1/ppc2 mutant with exogenous malate and glutamate, suggesting that low nitrogen status resulted in the alteration of carbon metabolism and prompted the accumulation of starch and sucrose in the ppc1/ppc2 mutant. Our results demonstrate that PEPC in leaves plays a crucial role in modulating the balance of carbon and nitrogen metabolism in Arabidopsis.

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Measurement of Hole Volume in Amorphous Polymers Using Positron Spectroscopy

Hristov

et al. 1996

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Positron annihilation lifetime spectroscopy (PALS) measurements, in the temperature range 110−480 K, are given for three linear, amorphous polymers. Based on these measurements, a method is proposed for evaluating the hole volume in amorphous thermoplastics. Our studies show that hole volume is composed of static and dynamic components. We demonstrate that the dynamic component, which is a result of the thermal vibrations of the molecular chains, is strongly correlated to thermodynamic volume/density fluctuations. The static hole volume is interpreted as “frozen-in” fluctuations, which are manifested as nanometer-sized flaws in the packing of molecular chains. The results from PALS measurements reported in our work are in very good agreement with results from small-angle X-ray scattering measurements.

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Rescue of tomato spotted wilt virus entirely from complementary DNA clones

Feng

Cheng

Chen

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Negative-stranded/ambisense RNA viruses (NSVs) include not only dangerous pathogens of medical importance but also serious plant pathogens of agronomic importance. Tomato spotted wilt virus (TSWV) is one of the most important plant NSVs, infecting more than 1,000 plant species, and poses major threats to global food security. The segmented negative-stranded/ambisense RNA genomes of TSWV, however, have been a major obstacle to molecular genetic manipulation. In this study, we report the complete recovery of infectious TSWV entirely from complementary DNA (cDNA) clones. First, a replication- and transcription-competent minigenome replication system was established based on 35S-driven constructs of the S(−)-genomic (g) or S(+)-antigenomic (ag) RNA template, flanked by the 5′ hammerhead and 3′ ribozyme sequence of hepatitis delta virus, a nucleocapsid (N) protein gene and codon-optimized viral RNA-dependent RNA polymerase (RdRp) gene. Next, a movement-competent minigenome replication system was developed based on M(−)-gRNA, which was able to complement cell-to-cell and systemic movement of reconstituted ribonucleoprotein complexes (RNPs) of S RNA replicon. Finally, infectious TSWV and derivatives carrying eGFP reporters were rescued in planta via simultaneous expression of full-length cDNA constructs coding for S(+)-agRNA, M(−)-gRNA, and L(+)-agRNA in which the glycoprotein gene sequence of M(−)-gRNA was optimized. Viral rescue occurred with the addition of various RNAi suppressors including P19, HcPro, and γb, but TSWV NSs interfered with the rescue of genomic RNA. This reverse genetics system for TSWV now allows detailed molecular genetic analysis of all aspects of viral infection cycle and pathogenicity.

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Characterization of Maize Chlorotic Mottle Virus Associated with Maize Lethal Necrosis Disease in China

Xie

Zhang

Wang

et al. 2010

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A maize lethal necrosis disease was observed in Yunnan province of China. Isometric virus particles 30 nm in diameter were found in infected maize leaf tissues. Using DAS-ELISA, diseased maize plant samples reacted positively with the antiserum of Maize chlorotic mottle virus (MCMV). The complete nucleotide sequence (4436 nt) of a Yunnan isolate of MCMV was determined; it shares 97% nucleotide sequence identity with previously reported MCMV isolates. This is the first report of MCMV occurring in China.

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Li Xie

Positronium Formation as a Probe of Polymer Surfaces and Thin Films

Phosphoenolpyruvate Carboxylase in Arabidopsis Leaves Plays a Crucial Role in Carbon and Nitrogen Metabolism

Measurement of Hole Volume in Amorphous Polymers Using Positron Spectroscopy

Rescue of tomato spotted wilt virus entirely from complementary DNA clones

Characterization of Maize Chlorotic Mottle Virus Associated with Maize Lethal Necrosis Disease in China

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