Related ArticlesCharacterization of plant-derived carbon and phosphorus in lakes by sequential fractionation and NMR spectroscopy.
Sci Total Environ. 2016 Jun 6;
Authors: Liu S, Zhu Y, Wu F, Meng W, He Z, Giesy JP
Abstract
Although debris from aquatic macrophytes is one of the most important endogenous sources of organic matter (OM) and nutrients in lakes, its biogeochemical cycling and contribution to internal load of nutrients in eutrophic lakes are still poorly understood. In this study, sequential fractionation by H2O, 0.1M NaOH and 1.0M HCl, combined with (13)C and (31)P NMR spectroscopy, was developed and used to characterize organic carbon (C) and phosphorus (P) in six aquatic plants collected from Tai Lake (Ch: Taihu), China. Organic matter, determined by total organic carbon (TOC), was unequally distributed in H2O (21.2%), NaOH (29.9%), HCl (3.5%) and residual (45.3%) fractions. For P in debris of aquatic plants, 53.3% was extracted by H2O, 31.9% by NaOH, and 11% by HCl, with 3.8% in residual fractions. Predominant OM components extracted by H2O and NaOH were carbohydrates, proteins and aliphatic acids. Inorganic P (Pi) was the primary form of P in H2O fractions, whereas organic P (Po) was the primary form of P in NaOH fractions. The subsequent HCl fractions extracted fewer species of C and P. Some non-extractable carbohydrates, aromatics and metal phytate compounds remained in residual fractions. Based on sequential extraction and NMR analysis, it was proposed that those forms of C (54.7% of TOC) and P (96.2% of TP) in H2O, NaOH and HCl fractions are potentially released to overlying water as labile components, while those in residues are stable and likely preserved in sediments of lakes. These results will be helpful in understanding internal loading of nutrients from debris of aquatic macrophytes and their recycling in lakes.
PMID: 27282495 [PubMed - as supplied by publisher]
[NMR paper] "In-plant" NMR: Analysis of the Intact Plant Vesicularia dubyana by High Resolution NMR Spectroscopy.
"In-plant" NMR: Analysis of the Intact Plant Vesicularia dubyana by High Resolution NMR Spectroscopy.
"In-plant" NMR: Analysis of the Intact Plant Vesicularia dubyana by High Resolution NMR Spectroscopy.
Molecules. 2015;20(3):4359-4368
Authors: Kutyshenko VP, Beskaravayny P, Uversky VN
Abstract
We present here the concept of "in-plant" NMR and show that high-resolution NMR spectroscopy is suitable for the analysis of intact plants and can be used to follow the changes in the intraorganismal molecular composition over long time...
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03-12-2015 10:33 AM
Structural Characterization of Micro- and Mesoporous Carbon Materials Using In Situ High Pressure129Xe NMR Spectroscopy
From The DNP-NMR Blog:
Structural Characterization of Micro- and Mesoporous Carbon Materials Using In Situ High Pressure129Xe NMR Spectroscopy
Oschatz, M., et al., Structural Characterization of Micro- and Mesoporous Carbon Materials Using In Situ High Pressure129Xe NMR Spectroscopy. Chemistry of Materials, 2014. 26(10): p. 3280-3288.
http://dx.doi.org/10.1021/cm501102y
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05-31-2014 01:47 AM
[NMR paper] Solid-State NMR Investigations of Peptide-Lipid Interactions of the Transmembrane Domain of A Plant-Derived Protein, Hcf106.
Solid-State NMR Investigations of Peptide-Lipid Interactions of the Transmembrane Domain of A Plant-Derived Protein, Hcf106.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-PubMedLink.gif Related Articles Solid-State NMR Investigations of Peptide-Lipid Interactions of the Transmembrane Domain of A Plant-Derived Protein, Hcf106.
Chem Phys Lipids. 2013 Sep 24;
Authors: Zhang L, Liu L, Maltsev S, Lorigan GA, Dabney-Smith C
Abstract
The chloroplast twin arginine translocation...
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10-01-2013 11:15 PM
Solid-State NMR Investigations of Peptide-Lipid Interactions of the Transmembrane Domain of A Plant-Derived Protein, Hcf106
Solid-State NMR Investigations of Peptide-Lipid Interactions of the Transmembrane Domain of A Plant-Derived Protein, Hcf106
Publication date: Available online 24 September 2013
Source:Chemistry and Physics of Lipids</br>
Author(s): Lei Zhang , Lishan Liu , Sergey Maltsev , Gary A. Lorigan , Carole Dabney-Smith</br>
The chloroplast twin arginine translocation system transports highly folded precursor proteins across the thylakoid using the protonmotive force as its only energy source. Hcf106 and another thylakoid protein, cpTatC compose the precursor receptor...
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09-25-2013 11:15 AM
Solid-State NMR characterization of autofluorescent fibrils formed by the elastin-derived peptide GVGVAGVG.
Solid-State NMR characterization of autofluorescent fibrils formed by the elastin-derived peptide GVGVAGVG.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www.pubmedcentral.nih.gov-corehtml-pmc-pmcgifs-pubmed-pmc.gif Solid-State NMR characterization of autofluorescent fibrils formed by the elastin-derived peptide GVGVAGVG.
Biomacromolecules. 2011 May 9;12(5):1546-55
Authors: Sharpe S, Simonetti K, Yau J, Walsh P
Abstract
The characterization of the molecular structure and physical properties of self-assembling peptides is an...
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09-10-2011 06:51 PM
NMR-derived models of amidopyrine and its metabolites in complexes with rabbit cytochrome P450 2B4 reveal a structural mechanism of sequential N-dealkylation.
NMR-derived models of amidopyrine and its metabolites in complexes with rabbit cytochrome P450 2B4 reveal a structural mechanism of sequential N-dealkylation.
NMR-derived models of amidopyrine and its metabolites in complexes with rabbit cytochrome P450 2B4 reveal a structural mechanism of sequential N-dealkylation.
Biochemistry. 2011 Mar 29;50(12):2123-34
Authors: Roberts AG, Sjögren SE, Fomina N, Vu KT, Almutairi A, Halpert JR
To understand the molecular basis of sequential N-dealkylation by cytochrome P450 2B enzymes, we studied the binding of...
Characterization of plant-derived carbon and phosphorus in lakes by sequential fractionation and NMR spectroscopy.
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