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A list of all pages that have property "Biography" with value "Zach studies two of the major transitions in the history of life as a scientist in the Lunar and Planetary Laboratory at UA: the origins of replicating molecules and the origins of the eukaryotic cell. <span>His research into the origins of life is focused on geologic settings that could have promoted the synthesis of complex organic compounds on the early Earth, specifically conditions capable of driving prebiotic oligomer synthesis reactions. Zach and his collaborators at ELSI have uncovered a 'switching network' of compound synthesis driven by the radiolysis of water that selectively produces the key precursors required for abiotic ribonucleotide synthesis:</span> <span>1) Nucleobase precursor and polymer-promoting solvent formamide (Adam et al., 2018)</span> <span>2) Sugar precursors glycolaldehyde, glyceraldehyde and 2-aminooxazole (Yi et al., 2018)</span> <span>3) Polyphosphate precursor monoammonium phosphate (Adam and Lago, in prep.)</span> <span>4) Nucleotide assembly compounds, condensing agents and leaving agents such as cyanamide and cyanogen (Yi et al., 2018; Fahrenbach et al., in prep.; Adam et al., in prep.)</span> Zach also discovered two new sources of microfossils in the 1.4 billion year old Belt Supergroup of Montana. The assemblages include unique specimens of Tappania plana, one of the earliest examples of complex eukaryotes and the first such fossils reported from Laurentia. The quality of preservation, spanersity of the assemblages and the accessibility of the units opens new avenues into exploring the morphology and ecology of some of Earth s oldest eukaryotes. Zach continues to study these and other fossils, looking for taxon-specific carbon isotope values and ultrastructural clues as to the affinity or metabolism of these organisms.". Since there have been only a few results, also nearby values are displayed.

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    • User:ZacharyAdam  + (Zach studies two of the major transitions Zach studies two of the major transitions in the history of life as a scientist in the Lunar and Planetary Laboratory at UA: the origins of replicating molecules and the origins of the eukaryotic cell. </br></br><span>His research into the origins of life is focused on geologic settings that could have promoted the synthesis of complex organic compounds on the early Earth, specifically conditions capable of driving prebiotic oligomer synthesis reactions. Zach and his collaborators at ELSI have uncovered a 'switching network' of compound synthesis driven by the radiolysis of water that selectively produces the key precursors required for abiotic ribonucleotide synthesis:</span></br></br></br><span>1) Nucleobase precursor and polymer-promoting solvent formamide (Adam et al., 2018)</span></br></br></br><span>2) Sugar precursors glycolaldehyde, glyceraldehyde and 2-aminooxazole (Yi et al., 2018)</span></br></br></br><span>3) Polyphosphate precursor monoammonium phosphate (Adam and Lago, in prep.)</span></br></br></br><span>4) Nucleotide assembly compounds, condensing agents and leaving agents such as cyanamide and cyanogen (Yi et al., 2018; Fahrenbach et al., in prep.; Adam et al., in prep.)</span></br></br>Zach also discovered two new sources of microfossils in the 1.4 billion year old Belt Supergroup of Montana. The assemblages include unique specimens of Tappania plana, one of the earliest examples of complex eukaryotes and the first such fossils reported from Laurentia. The quality of preservation, diversity of the assemblages and the accessibility of the units opens new avenues into exploring the morphology and ecology of some of Earth s oldest eukaryotes. Zach continues to study these and other fossils, looking for taxon-specific carbon isotope values and ultrastructural clues as to the affinity or metabolism of these organisms.c carbon isotope values and ultrastructural clues as to the affinity or metabolism of these organisms.)