°C/min, 100 - 180 °C at 6 °C/min, 10 min at 180 °C. After recalculation of the results depending ... more °C/min, 100 - 180 °C at 6 °C/min, 10 min at 180 °C. After recalculation of the results depending on the internal standard, r-factor were calculated for each aroma component and for each treatment as the value of peak area of that component divided by the peak area value of the same ...
Zusammenfassung Frisch geerntete Heidelbeeren (cv.'Bluecrop') wurden be... more Zusammenfassung Frisch geerntete Heidelbeeren (cv.'Bluecrop') wurden bei CA-Lagerbedingungen von 18% und 2% Sauerstoff (O 2) in Kombination mit steigenden Kohlendioxid (CO 2)-Konzentrationen von 6%, 12%, 18% und 24% CO 2 gelagert. ...
To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we c... more To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we characterized a ubiquitous species, Chloroidium sp. UTEX 3007, which we isolated from multiple locations in the United Arab Emirates (UAE). Metabolomic analyses of Chloroidium sp. UTEX 3007 indicated that the alga accumulates a broad range of carbon sources, including several desiccation tolerance-promoting sugars and unusually large stores of palmitate. Growth assays revealed capacities to grow in salinities from zero to 60 g/L and to grow heterotrophically on >40 distinct carbon sources. Assembly and annotation of genomic reads yielded a 52.5 Mbp genome with 8153 functionally annotated genes. Comparison with other sequenced green algae revealed unique protein families involved in osmotic stress tolerance and saccharide metabolism that support phenomic studies. Our results reveal the robust and flexible biology utilized by a green alga to successfully inhabit a desert coastline
To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we c... more To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we characterized a ubiquitous species, Chloroidium sp. UTEX 3007, which we isolated from multiple locations in the United Arab Emirates (UAE). Metabolomic analyses of Chloroidium sp. UTEX 3007 indicated that the alga accumulates a broad range of carbon sources, including several desiccation tolerance-promoting sugars and unusually large stores of palmitate. Growth assays revealed capacities to grow in salinities from zero to 60 g/L and to grow heterotrophically on >40 distinct carbon sources. Assembly and annotation of genomic reads yielded a 52.5 Mbp genome with 8153 functionally annotated genes. Comparison with other sequenced green algae revealed unique protein families involved in osmotic stress tolerance and saccharide metabolism that support phenomic studies. Our results reveal the robust and flexible biology utilized by a green alga to successfully inhabit a desert coastline.
Interactive Venn diagram displaying shared and unique protein families (Pfams) among 6 different ... more Interactive Venn diagram displaying shared and unique protein families (Pfams) among 6 different algae. File can be uploaded to interactivenn.net
°C/min, 100 - 180 °C at 6 °C/min, 10 min at 180 °C. After recalculation of the results depending ... more °C/min, 100 - 180 °C at 6 °C/min, 10 min at 180 °C. After recalculation of the results depending on the internal standard, r-factor were calculated for each aroma component and for each treatment as the value of peak area of that component divided by the peak area value of the same ...
Zusammenfassung Frisch geerntete Heidelbeeren (cv.'Bluecrop') wurden be... more Zusammenfassung Frisch geerntete Heidelbeeren (cv.'Bluecrop') wurden bei CA-Lagerbedingungen von 18% und 2% Sauerstoff (O 2) in Kombination mit steigenden Kohlendioxid (CO 2)-Konzentrationen von 6%, 12%, 18% und 24% CO 2 gelagert. ...
To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we c... more To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we characterized a ubiquitous species, Chloroidium sp. UTEX 3007, which we isolated from multiple locations in the United Arab Emirates (UAE). Metabolomic analyses of Chloroidium sp. UTEX 3007 indicated that the alga accumulates a broad range of carbon sources, including several desiccation tolerance-promoting sugars and unusually large stores of palmitate. Growth assays revealed capacities to grow in salinities from zero to 60 g/L and to grow heterotrophically on >40 distinct carbon sources. Assembly and annotation of genomic reads yielded a 52.5 Mbp genome with 8153 functionally annotated genes. Comparison with other sequenced green algae revealed unique protein families involved in osmotic stress tolerance and saccharide metabolism that support phenomic studies. Our results reveal the robust and flexible biology utilized by a green alga to successfully inhabit a desert coastline
To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we c... more To investigate the phenomic and genomic traits that allow green algae to survive in deserts, we characterized a ubiquitous species, Chloroidium sp. UTEX 3007, which we isolated from multiple locations in the United Arab Emirates (UAE). Metabolomic analyses of Chloroidium sp. UTEX 3007 indicated that the alga accumulates a broad range of carbon sources, including several desiccation tolerance-promoting sugars and unusually large stores of palmitate. Growth assays revealed capacities to grow in salinities from zero to 60 g/L and to grow heterotrophically on >40 distinct carbon sources. Assembly and annotation of genomic reads yielded a 52.5 Mbp genome with 8153 functionally annotated genes. Comparison with other sequenced green algae revealed unique protein families involved in osmotic stress tolerance and saccharide metabolism that support phenomic studies. Our results reveal the robust and flexible biology utilized by a green alga to successfully inhabit a desert coastline.
Interactive Venn diagram displaying shared and unique protein families (Pfams) among 6 different ... more Interactive Venn diagram displaying shared and unique protein families (Pfams) among 6 different algae. File can be uploaded to interactivenn.net
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Books by Jamil Harb
Papers by Jamil Harb