ライフサイエンスコーパス: acidophil

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1 mum for growth of less than pH 3 are termed "acidophiles".

2 to be restricted to (hyper)thermophiles and acidophiles.

3 amentous viruses infecting hyperthermophilic acidophiles.

4 pathway, the mevalonate pathway, in extreme acidophiles.

5 y to hot environments, but metal leaching by acidophiles and reduction of sulfate by anaerobic, nonth

6 iew highlights recent insights regarding how acidophiles are able to survive and grow in these extrem

7 Extremophilic thermophiles and acidophiles are being researched to combat these problem

8 Extreme acidophiles are capable of growth at pH values near zero

9 related Thermoplasmales suggests that these acidophiles are important contributors to acid mine drai

10 o 280 days post-LT as lobular hepatitis with acidophil bodies and lymphoplasmacytic infiltrate.

11 obular, portal, and interface hepatitis; (2) acidophil bodies with lymphoplasmacytic cells are seen i

12 ing the presence of ballooning degeneration, acidophil bodies, megamitochondria, and Mallory-Denk bod

13 a limited correlation between large MDBs and acidophil bodies.

14 crobes can thrive in acidic conditions (some acidophiles can proliferate at or below pH 0).

15 We hypothesize that gene exchange with these acidophiles contributed to the competitive success of th

16 cent advances in the biochemical analysis of acidophiles coupled to sequencing of several genomes hav

17 We now demonstrate that in extreme acidophiles, decarboxylation is carried out by two separ

18 displaced by the autotrophic iron-oxidizing acidophiles Ferrovum myxofaciens, Acidithiobacillus ferr

19 We therefore propose that extreme acidophiles had to replace the dual-purpose enzyme with

20 To grow at low pH, acidophiles must maintain a pH gradient of several pH un

21 Acidophiles seem to share distinctive structural and fun

22 Recent developments have included using acidophiles to process electronic wastes, to extract met

23 Why use two enzymes in acidophiles when one enzyme provides both functionalitie

24 represent ubiquitous iron-oxidising extreme acidophiles with a number of unique physiological traits