7 research outputs found
Additional file 11: of Engineering high Zn in tomato shoots through expression of AtHMA4 involves tissue-specific modification of endogenous genes
Information on additional genes chosen for expression analysis. (PDF 14Ā kb
Morus tiliaefolia Makino
åčåå: ć±ć°ćē§å: ćÆćÆē§ = Moraceaeę”éå°: å³¶ę ¹ē é å² å³¶å¾ (é å² å³¶å¾)ę”éę„: 1976/5/9ę”éč
: č©åŗäø壽ę“ēēŖå·: JH007800å½ē«ē§å¦åē©é¤Øę“ēēŖå·: TNS-VS-95780
Methane-yielding community composition based on taxonomic assignments from 454-pyrosequencing reads generated using MEGAN5: (A) total reads; (B) reads assigned to the <i>Bacteria</i> domain, (C) reads assigned to the <i>Archaea</i> domain.
<p>Methane-yielding community composition based on taxonomic assignments from 454-pyrosequencing reads generated using MEGAN5: (A) total reads; (B) reads assigned to the <i>Bacteria</i> domain, (C) reads assigned to the <i>Archaea</i> domain.</p
Additional file 7: of Engineering high Zn in tomato shoots through expression of AtHMA4 involves tissue-specific modification of endogenous genes
Microarray data. (XLSX 2637Ā kb
Characteristics of the acidic effluent resulting from molasses fermentation used as the substrate for methanogenesis, and the effluent from the methanogenic process.
<p><sup>1</sup> not-centrifuged effluents contained microbial cells</p><p><sup>2</sup> the protein concentrations were determined in non-centrifuged (containing microbial cells) samples, while the concentrations of the other components were determined in centrifuged samples.</p><p><sup>3</sup> the content of Fe(II) in the methane-yielding granular sludge in the UASB bioreactor was 5.2 Ā± 0.7 mM (n = 3).</p><p>Characteristics of the acidic effluent resulting from molasses fermentation used as the substrate for methanogenesis, and the effluent from the methanogenic process.</p
Characteristics of biogas generated from the acidic effluent of sugar beet molasses fermentation by the methanogenic microbial community in the UASB bioreactor.
<p>Characteristics of biogas generated from the acidic effluent of sugar beet molasses fermentation by the methanogenic microbial community in the UASB bioreactor.</p
The expected metabolic pathways used for transformation of the components of the acidic effluent from sugar beet molasses fermentation to methane and carbon dioxide in the UASB bioreactor.
<p>The expected metabolic pathways used for transformation of the components of the acidic effluent from sugar beet molasses fermentation to methane and carbon dioxide in the UASB bioreactor.</p