Вариации структуры и транскрипции митохондриального генома растений сахарной свёклы (Beta vulgaris), отличающихся по экспрессии признака ЦМС тема диссертации и автореферата по ВАК РФ 03.00.25, кандидат биологических наук Иванов, Михаил Константинович

Большая часть данных, касающихся ядерно-цитоплазматических взаимоотношений у цветковых растений, получена при изучении признака цитоплазматической мужской стерильности (ЦМС), выражающегося в формировании пыльников с абортивной пыльцой в результате взаимодействия генов ядра и митохондрий.

У культурной сахарной свёклы {Beta vulgaris L.) с ЦМС Оуэновского типа мужскостерильный фенотип (msO) реализуется при сочетании мтДНК S-типа и рецессивных аллелей как минимум двух ядерных #/:генов - восстановителей фертильности (Frj/fri, Fr2/fri) в гомозиготном состоянии. мтДНК S-типа характеризуется отличиями от мтДНК нормального (N-) типа в структуре и копийности ряда последовательностей, а также наборе продуктов их экспрессии. Одинаковый набор структурных отличий мтДНК выявлен у всех независимо выделенных ЦМС-форм сахарной свеклы, промежуточные состояния цитоплазмы между N- и S-типами не охарактеризованы. Какие именно изменения мтДНК при взаимодействии с ядерными генами определяют развитие признака ЦМС у сахарной свеклы, остается неизвестным, хотя первые работы по анализу этих изменений имеют более чем 20-летнюю давность.

Экспрессия ЦМС у сахарной свеклы отличается нестабильностью. При опылении ЦМС-растений с полностью нарушеным микроспорогенезом и S-типом цитоплазмы (фенотип msO) пыльцой растений-закрепителей стерильности значительная часть потомков может иметь полустерильную, полуфертильную, и даже полностью фертильную пыльцу. Это свидетельствует о дополнительных источниках изменчивости признака, не связанных с известными ^/-генами. Одним из теоретических источников этой изменчивости может быть гетероплазматическое состояние клеток сахарной свеклы, при котором оба типа мтДНК одновременно присутствуют в тканях одного растения или даже в одной клетке.

Целями настоящей работы являлись поиск неописанных молекулярных маркеров ЦМС, относящихся к транскрибируемым последовательностям мтДНК у сахарной свеклы, а также анализ наличия и уровня гетероплазмии мтДНК в растениях, расщепляющихся по пыльцевому фенотипу. В конкретные задачи работы входило:

1) проанализировать отличия структуры и транскрипции мтДНК сахарной свеклы N-и S-типа в районах генов cob и nadld, выявленные ранее в лаборатории структуры генома ИЦиГ. Провести поиск новых ЦМС-ассоциированных изменений в структуре мтДНК, соответствующих транскрибируемым последовательностям, для выявления потенциальных детерминант ЦМС; проанализировать у растений сахарной свеклы с разным пыльцевым фенотипом различия в транскрипционных спектрах генов-кандидатов на роль детерминант ЦМС, выбранных на основе анализа литературных данных; адаптировать метод мтРНК-дисплея для поиска неописанных изменений транскрипции в митохондриях таких растений; выявить наличие и оценить уровень гетероплазмии по маркерным последовательностям мтДНК у растений разных линий и сортов, отличающихся по экспрессии признака ЦМС, в том числе у апозиготических потомков пыльцестерильных растений сахарной свеклы с фенотипом msO.

121 ВЫВОДЫ.

1. Для поиска полиморфизмов мтДНК растений предложена модифицированный вариант RAPD-анализа с использованием вырожденных праймеров, подобранных компьютерным анализом. С его помощью найден ряд маркеров N- и S-типов мтДНК у сахарной свеклы.

2. Проанализированы структурные перестройки участков мтДНК сахарной свеклы в районах генов cob и nadld, реорганизованных в цитоплазме S-типа по сравнению с N-типом; выявлено, что они образованы в результате состыковок фрагментов мтДНК N-типа, не отражающихся на транскрипционных спектрах в тканях зрелых растений. Выявлены и проанализированы структурные вариации мтДНК в районах гена rps3 и orf215, ассоциированные с признаком ЦМС и отражающиеся на спектрах транскрипции.

3. Проанализированы различия в спектрах транскрипции растений сахарной свеклы, отличающихся по экспрессии признака ЦМС. Не выявлено сцепленных с фенотипом различий в транскрипционных спектрах нескольких генов-кандидатов на роль детерминант ЦМС у растений с разным пыльцевым фенотипом на фоне S-цитоплазмы (гены coxl, coxll, mat-r, atpA, atp6, nadlc). Впервые для анализа транскрипции генов митохондрий растений адаптирован метод мтРНК-дисплея; с его помощью выявлен ряд маркеров, специфичных для типа цитоплазмы и пыльцевого фенотипа в разных выборках. Клонирован и секвенирован маркер, гомологичный последовательности РНК-вируса и предпочтительно амплифицируемый у ревертантов к фертильности в одной из групп растений.

4. Впервые у сахарной свеклы показано наличие субстехиометрических количеств некоторых субгеномных форм мтДНК и проведена оценка их относительного количества. Выявлена гетероплазмия и вариации в соотношениях N- и S-специфичных маркерных последовательностей мтДНК в апозиготических потомствах пыльцестерильных растений. Проведена оценка уровня гетероплазмии, а также стехиометрических соотношений субгеномных форм мтДНК сахарной свеклы в растениях разных линий и сортов, отличающихся по экспрессии признака ЦМС, с помощью ПЦР в реальном времени. Получены свидетельства изменчивости мтДНК на уровне точечных замен.

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