Биодеградация дихлорметана аэробными метилобактериями
Диссертация
Представляя большой интерес в качестве модельных организмов для изучения физиолого-биохнмических и молекулярно-генетических основ аэробного метаболизма галометанов, аэробные деструкторы ДХМ перспективны для внедрения на очистных сооружениях целого ряда производств, генерирующих или использующих данный токсикант. Соответственно, знание механизмов устойчивости этих штаммов к сопутствующим… Читать ещё >
Содержание
- Список сокращений
- ОБЗОР ЛИТЕРАТУРЫ
- Глава 1. Дихлорметан — антропогенный поллютант из класса галометанов
- Глава 2. Микробная деградация дихлорметана
- 2. 1. Особенности биологии аэробных метилотрофных бактерий
- 2. 2. Аэробные метилобактерии — деструкторы дихлорметана
- Глава 3. Минерализация дихлорметана аэробными метнлобактерипми
- 3. 1. Этимологические и генетические аспекты дегалогенирования ДХМ
- 3. 2. Адаптация аэробных метилобактернй к минерализации дихлорметана
- ЭКСПЕРИМЕНТАЛЬНАЯ ЧАСТ
- Глава 4. Материалы и методы
- 4. 1. Объекты исследований
- 4. 2. Культивирование бактерий
- 4. 3. Исследование ультраструктуры клеток
- 4. 3. 1. Получение ультратонких срезов бактериальных клеток и электронная 47 микроскопия
- 4. 3. 2. Рентгеновский микроанализ элементного состава компартменюв клеток
- 4. 4. Определение фосфолипидного состава клеток
- 4. 5. Определение состава жирных кислот
- 4. 6. Определение аминокислотного состава
- 4. 7. Определение активности глутатионредуктазы
- 4. 8. Определение концентрации ионов хлора
- 4. 9. Очистка дихлорметандегалогеназ
- 4. 9. 1. Получение бесклеточных экстрактов
- 4. 9. 2. Высокоскоростная жидкостная хроматография
- 4. 10. Определение активности дихлорметандегалогеназ
- 4. 11. Фракционирование изотопов 12/13с и 35/37С1 при биодеградации ДХМ
- 4. 11. 1. Условия эксперимента
- 4. 11. 2. Определение изотопного состава дихлорметана и СОг
- 4. 11. 3. Определение доли потребления дихлорметана
- 4. 12. Влияние ингибиторов электронного транспорта на биодеградацию ДХМ
- 4. 13. Адаптация клеток деструкторов к присутствию ионов хлора в среде
- 4. 13. 1. Оценка длительности лаг-периода в потреблении ДХМ при адаптации к ионам хлора в среде
- 4. 13. 2. Влияние стрессоров на длительность лаг-периода в потреблении ДХМ
- 4. 13. 3. Определение времени начала экспрессии дихлорметандегалогеназ
- 4. 14. Денатурирующий гель-электрофорез белков в ПААГ
- 4. 15. Оценка выживаемости клеток метилобактерий
- РЕЗУЛЬТАТЫ И ОБСУЖДЕНИЕ
- Глава 5. Структурно-функциональная модификация клеток деструкторов при деградации ДХМ
- 5. 1. Изменения состава жирных кислот и фосфолипидов клеток
- 5. 2. Морфология и ультраструктура метилобактерий в присутствии ионов СГ
- 5. 3. Изменения состава аминокислот клеток и активности глутатионредуктазы
- Глава 6. Механизмы транспорта ДХМ у деструкторов
- 6. 1. Сравнительный анализ динамики потребления и дегалогенирования ДХМ
- 6. 2. Фракционирование изотопов 12/13С и 35/37С1 при биодеградации ДХМ
- 6. 3. Оценка энергозависимости процесса биодеградации ДХМ
- Глава 7. Адаптация деструкторов ДХМ к внутриклеточной продукции СГ
- 7. 1. Экскреция ионов СГ деструкторами при дегалогенировании ДХМ
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