Генетическое разнообразие фитопатогенных бактерий Xanthomonas campestris и устойчивость к ним растений семейства Brassicaceae
Диссертация
Впервые изучены особенности расовой структуры популяции X. campestris в России, Великобритании, Японии, США и других странах. Расы 1 и 4 обнаружены в Великобритании, Германии, Венгрии, США (доминирующая раса 1), Японии, Португалии и России (доминирующая раса 4). Раса 0 была обнаружена в Португалии и США, где доминировала на дикорастущих крестоцветных растениях. При взаимодействии… Читать ещё >
Содержание
- I. ЛИТЕРАТУРНЫЙ ОБЗОР
- 1. 1. Биологические особенности вида Xanthomonas campestris
- 1. 1. 1. Возбудители листовой пятнистости
- 1. 1. 2. Возбудитель сосудистого бактериоза Xanthomonas campestris pv. campestris
- 1. 2. Эволюция и систематика культурных видов рода
- 1. 1. Биологические особенности вида Xanthomonas campestris
- Brassica
- 1. 2. 1. Эволюция вида Brassica oleracea L
- 1. 2. 2. Эволюция вида Brassica rapa L
- 1. 2. 3. Эволюция видов В. nigra, В. juncea, В. napus и
- В. carinata
- 1. 2. 4. Использование генетических ресурсов семейства капустных для селекции на устойчивость к болезням
- 1. 3. Взаимоотношение растений и фитопатогенных бактерий
- II. МАТЕРИАЛЫ И МЕТОДЫ
- 2. 1. Штаммы фитопатогенов
- 2. 2. Сорта растений и агротехника
- III. МЕТОДЫ ОЦЕНКИ УСТОЙЧИВОСТИ РАСТЕНИЙ К СОСУДИСТОМУ БАКТЕРИОЗУ И БАКТЕРИАЛЬНОЙ ЛИСТОВОЙ ПЯТНИСТОСТИ
- 3. 1. Инокуляция и системы оценки
- 3. 2. Влияние метода хранения бактерий на воспроизводимость результатов инокуляции растений
- 3. 3. Влияние питательной среды на патогенность Хсс
- 3. 4. Воспроизводимость оценки реакции растений
- 3. 5. Количественная изменчивость реакции растений Brassica к возбудителю сосудистого бактериоза
- 3. 6. Оценка устойчивости растений к листовой пятнистости
- 3. 7. Многовариантный метод оценки устойчивости капустных растений на устойчивость к сосудистому бактериозу
- IV. РАЗНООБРАЗИЕ ПОПУЛЯЦИИ XANTHOMONAS CAMPESTRIS
- 4. 1. Разнообразие биохимических признаков Xanthomonas sp
- 4. 2. Активность экзоферментов X. campestris pv. campestris
- 4. 3. Полиморфизм спектра общих водорастворимых белков
- X. campestris pv. campestris
- 4. 4. Серологические признаки Xanthomonas campestris pv. campestris
- 4. 5. Характеристика антигенных признаков Xanthomonas campestris методом Вестерн-блот гибридизации
- 4. 6. Генетические признаки Xanthomonas campestris pv. campestris
- 4. 6. 1. Генетическое разнообразие X. campestris pv. campestris и взаимоотношение с другими видами Xanthomonas по последовательности гена 16S рРНК и 16S-23S ITS региона
- 4. 6. 2. Полиморфизм популяции Xanthomonas campestris, выделенный AFLP и DIR-ПЦР маркерами
- 4. 7. Разработка и тестирование специфичных праймеров для мультиплексной диагностики Xanthomonas campestris
- 4. 8. Плазмидный состав X. campestris pv. campestris
- 4. 9. Ген авирулентности Xanthomonas campestris pv. campestris гомологичный локусу avrBs
- V. ВЗАИМООТНОШЕНИЯ МЕЖДУ БАКТЕРИЯМИ ВИДА XANTHOMONAS CAMPESTRIS И КРЕСТОЦВЕТНЫМИ РАСТЕНИЯМИ
- 5. 1. Спектр поражаемых растений, разнообразие симптомов вызываемых болезней и патогенности представителей рода Xanthomonas
- 5. 2. Взаимоотношение растений Brassica и бактерий Xanthomonas campestris 179 5.2.1 Особенности поражения растений-хозяев бактериями Xanthomonas campestris pv. campestris
- 5. 3. Расовый состав популяций Xanthomonas campestris pv. campestris
- 5. 4. Появление расы 0(6) в результате спонтанной мутации изолята расы 1 Xanthomonas campesrtis pv. campeais
- VI. РАЗНООБРАЗИЕ РАСОВО-СПЕЦИФИЧЕСКОЙ И НЕСПЕЦЦФИЧЕСКОЙ УСТОЙЧИВОСТИ К XANTHOMONAS CAMPESIZIS У РАСТЕНИЙ РОДА BRASSICA
- 6. 1. Устойчивость растений с геномом АА (ААСС) {Brassica rapa & В. napus)
- 6. 2. RAPD-маркеры, сцепленные с локусом устойчивости к
- 6. 3. Устойчивость растений В. oleracea (СС геном)
- 6. 3. 1. Расово-специфичная реакция устойчивости у
- 6. 3. 2. Стеблевая устойчивость к сосудистому бактериозу капустных у В. oleracea
- 6. 3. 3. Полигенное наследование устойчивости к сосудистому бактериозу и листовой пятнистости у брокколи
- 6. 3. 4. Значение расово-специфичной реакции для полевой устойчивости В. о1егасеа к сосудистому бактериозу
- 6. 4. Устойчивость дикорастущих и полукультурных растений сем. Капустные
Список литературы
- Балашова H.H., Валеева З. Т., Игнатов А. Н., Ущаповский И.В., Жученко
- A.A. (мл.) и Даус B.C. Роль микрогаметофита в адаптации растений к эконише произрастания. // Сельскохозяйственная биология. 1994. — № 3. С. 59−64
- Балашова H.H., Игнатов А. Н., Рогачев Ю. Б. Изменчивость гаметофита капусты под воздействием бактериальных патогенов и килы. // Сельскохозяйственная биология. -1995.- № 5.- С.115−118
- Босс Г. В., Тимошенко З. В. Генофонд капусты для селекции сортов, устойчивых к грибным болезням. // Труды по прикладной ботанике, генетике и селекции. 1979. -т. 64. -№ 1.- С. 133−136
- Бунин М. С. Исидзава Я., Юи С., Игнатов А. Н. Разнообразие и филогенетическое происхождение сортов азиатской субпопуляции Raphanus sativus L. // Сельскохозяйственная биология, 1995. -№ 3, -С.54−64
- Гапоненко А.К., Игнатов А. Н., Яковлева И. В. Генетическая инженерия растений итоги и перспективы. // Геном, клонирование, происхождение человека. Ред. Чл.-корр. РАН Л. И. Корочкин. Фрязино. -С. «Век 2″, 2004.224 с.
- Иванюк У.Р., Сильванович М. А. Эпифитология сосудистого бактериоза капусты. // Вести АН Белорусской ССР, 1990. -№ 4. -С.58−62.
- Игнатов А. Н. Использование быстрорастущих растений Brassica oleracea и
- B. гара в качестве модельных объектов для изучения генетики овощных капустных. // 2-й Симпозиум „Новые и нетрадиционные растения и перспективы их практического использования“ 16−20 июня 1997. Пущино.1. C.308−309.
- Игнатов А.Н. Селекционное и генетическое изучение устойчивости белокочанной капусты к сосудистому бактериозу. // Автореферат., кандидата с/х наук. Москва. ТСХА. 25с.
- З.Игнатов А. Н., Поляков К. Л., Самохвалов А. Н. Количественный анализ серологических признаков Xanthomonas campestris. // Сельскохозяйственная биология. 1998. -№ 1. -С. 106−115.
- Н.Игнатов А. Н., Самохвалов А. Н. Методы выделения плазмид и плазмидный профиль Xanthomonas campestris pv.campestris. // Доклады научной конференции „Бактериальные болезни картофеля овощей и методы борьбы с ними“ ВНИИФ, Москва 1993. -С. 102−105
- Карпеченко Г. Д. Число хромосом и генетические взаимоотношения у культурных Cruciferae. // Тр. Прикл. Бот. и Селекции. 1924. -т. 13. -в.2.
- Колесников И. М, Игнатов А. Н., Харламов Д. М. Состояние и перспективы гетерозисной селекции брокколи. // Второй междунар. симп. „Новые и нетрадиц. растения и перспективы их практ. использования.“. 1997. -Т.4. С. 320−322
- Кравченко Е. В. Игнатов А.Н., Дорохов Д. Б. Использование молекулярных маркеров в исследованиях динамики растительного генома. // Горизонты физ.-хим.биологии. -Пущино, 2000. Т.1. С. 121−122
- Кривченко В.И., Босс Г. В., Сурмава М. Е. Характеристика генофонда капусты по устойчивости к Plasmodiophora brassicae Woron. Труды по прикладной ботанике, генетике и селекции. 1992, 72,3. -С. 113−120
- Крючков A.B., Монахос Т. Ф., Джалилов Ф. С., Нгуен Тхи Нгок Хуэ Наследование устойчивости к сосудистому бактериозу у самонесовместимых линий среднеспелой белокочанной капусты. // Плодоовощное хозяйство. 1987. -В.10. -С.41−44.
- Куниченко H.A., Сабилева А. Г. Фитопатологическая оценка белокочанной капусты на устойчивость к бактериозам в условиях Молдавии // Известия АН MCCP. Серия биологических и химических наук. 1988. -С. 65−66.
- Лизгунова Т.В. Культурная флора СССР. XI Капуста. Л. Колос. 1984. 328с.
- Михальчук Н.В. Биологические особенности возбудителя фомоза капусты и разработка мер борьбы с ним в условиях Белоруси. Самохваловичи, 1988, 22с.
- Монахос Г. Ф., Харламов Д. М., Колесников И. М., Игнатов А. Н. Состояние и перспективы селекции брокколи. // Тезисы конференции „Оптимизация селекционного процесса на основе генетических методов“. Харьков, 18−20 августа 1999. Стр. 111−112.
- Монахос Т.Ф., Джалилов Ф. С., Тивари Рам-Део. Наследование устойчивости к сосудистому бактериозу у самонесовместимых линий позднеспелой белокочанной капусты. // Известия Тимирязевской сельскохозяйственной академии. 1990, -No.4. -С. 86−91.
- Рогачев Ю.Б. Оценка белокочанной капусты на комплексную устойчивость к киле и бактериозам. // Автореферат. канд. с/х наук. М.ТСХА. 1991,25 с.
- Самохвалов А.Н. и Игнатов А.Н. Активация иммунитета Brassica oleracea L. к сосудистому бактериозу. // Биологические науки. 1991. -No. 12. -С. 56−60
- Самохвалов А.Н., Игнатов А. Н. и Рогачев Ю.Б, Защита капусты от килы и бактериозов. // Доклады научной конференции „Сельскохозяйственная наука Казахской ССР“ Алма-ата. 1990. -ч. 2. -С.56.
- Самохвалов А.Н., Игнатов А. Н., Рогачев Ю. Б. Совмествный рост возбудителей слизистого и сосудистого бактериозов капустных in vitro. // Доклады научной конференции „Экологические проблемы защиты растений“. Л. 1990, -С.110.
- Сухорукова Н.С. Сосудистый бактериоз белокочанной капусты в Западной Сибири. Фитонциды. // Бактериальные болезни растений. Материалы конф., 2 часть. Киев, 1985. -С. 79−80.
- Тивари Рам Део. Биологические обоснования приемов защиты капусты от сосудистого бактериоза. // Автореф. канд. дисс. биол. наук, -М. 1989. -22 с.
- Федорова М.И., Игнатов А. Н., Балашова Н.Н» Баринова Т. Анализ корреляционных связей морфологических признаков редиса Raphanus sativus L. // Сельскохозяйственная биология. 1999. -№ 3. -С.110−116 .
- Феофраст. Исследование о растениях. Книги 1−9. Приложения. МЛ. 1951.
- Харламов Д., Игнатов А. Наследование устойчивости к сосудистому бактериозу и листовой пятнистости у самонесовместимых линий брокколи. // Сельскохозяйственная биология. 2001. -№ 5. -С.50−55
- Цветков И.Л., Игнатов А. Н., Дорохов Д. Б. Полиморфизм изоферментных маркеров и идентификация сортов капусты белокочанной, брюссельской, савойской и брокколи (Brassica oleracea L.) // Сельскохозяйственная биология. -2001. -№ 5. -С. 81−87
- Цветков И.Л., Игнатов А. Н., Дорохов Д. Б. Особенности внутривидовой дифференциации капустных культур при идентификации генотипов по изоферментным спектрам кислых фосфатаз и а-эстераз. Горизонты физ.-хим.биологии. -Пущино, -2000, Т.1, С. 131−132
- Ячевский А.Л. Ежегодник сведений о болезнях и повреждениях культурных и дикорастущих полезных растениях. СПБ. 1908. 288 с.
- Alvarez AM, Benedict АА, Mizumoto CY, Identification of xanthomonads and grouping of strains of Xanthomonas campestris pv. campestris with monoclonal antibodies. // Phytopathology, -1985.-V.75(6). -C.722−728.
- Aarts N., Metz M., Holub E., Staskawicz B. J., Daniels M. J., Parker J. E. Different requirements for EDS1 and NDR1 by disease resistance genes define at-----least two R gene-mediated signaling pathways in Arabidopsis. // Proc. Natl. Acad.
- Sci. U.S.A.-1998.-B.95.-C. 10 306−10 311
- Alvarez A.M., Benedict A.A., Mizumoto C.Y., Hunter J.E., Gabriel D.W. Serological, pathological, and genetic diversity among strains of Xanthomonas campestris infecting crucifers. // Phytopathology, -1994. -B.84. -C.1449−1457.
- Alvarez A.M., Cho J.J. Black rot of cabbage in Hawaii, inoculum source and disease incidence. //Phytopathology, -1978. -B.68. -C.1456−1459.
- Alvarez A.M., Lou K. Rapid identification of Xanthomonas campestris pv. campestris by ELISA. // Plant Disease, -1985. -B.69. -C. 1082−1086.
- Alvarez A.M., Benedict A.A., Mizumoto C.Y., Hunter J. E., and Gabriel D.W. Serological, pathological, and genetic diversity among strains of Xanthomonas campestris infecting crucifers. //Phytopathology, -1994, -B.84. -C. 1449−1457
- Ashizawa M. «Tsukena». //In.-C. Nishi S. (ed.) Yasai Engei Handbook. Yokendo, Tokyo. -1980. P.880−894. (in Japanese).
- Assis S.M.P., Mariano R.L.R., Michereff S.J., Silva G., Maranhao E.A.A. Antagonism of yeasts to Xanthomonas campestris pv. campestris on cabbage phylloplane in field. // Revista de Microbiologia. -1999, -B. 30. -C.191−195
- Assis S.M.P., Silveira E.B. da, Mariano R. de L.R., Menezes D., da Silveira E.B., de L.R. Mariano R. Endophytic bacteria method for isolation and antagonistic potential against cabbage black rot. // Summa-Phytopathologica.-1998. -B.24. -C. 216−220
- Attita T., Robbelen G. Cytogenetic relationship within cultivated Brassica analyzed in amphidiploids from the three diploid ancestors. Can J. Genet Cytol -1986r-B.28,-C. 323−329
- Ausubel F. M. R., Brent R. E., Kingston D. D., Moore J. G., Seidman J. G., Smith. Current protocols in molecular biology. Greene Publishing Associates and Wiley-Interscience, New York, N.Y. -1987.
- AVCDR, Asian Vegetable Research and Development Center (AVCDR) 1994 Progress Report, -1994.V.1.-C. 69−71.
- Aveling T.A.S., Robbertse P.J. Evaluation of antibiotics against Xanthomonas campestris causing black rot of Brassica. // Phytophylactica. -1989. -B.22. -C.229−231.
- Azegami K., Ohata K.-I. Comparative pathogenicity of Xanthomonas campestris pv. campestris isolates. // Bull. Natl. Inst. Agric. Sci., -1983, -B.37. -C. 19−30.
- Babadoost M., Derie M.L., Gabrielson R.L. Efficacy of sodium hypochlorite for control of Xanthomonas campestris pv. campestris in Brassica seeds. // Seed Science and Technology, -1996. -B.26. -C.7−15.
- Bain D. C. Disappearance of blackrot symptoms in cabbage seedlings. // Phytopathology -1955, -B.45. -C. 55−56.
- Bain D. C. Reaction of brassica seedlings to blackrot. // Phytopathology. -1952. -B.42.-C. 316−319.
- Bain D. Resistance of cabbage to black rot. // Phytopathology, -1955. -B.45. -C. 35−37.
- Bajaj S.S., K.S. Labana, B.N. Medhi. Interspecific hybridization of Brassica napus and B. juncea through ovary, ovule and embryo culture. // Euphytica. -1986. -B.35.-C. 103−109.
- Bazzi C. Seed-transmission of phytopathogenic bacteria. //Petria, -1991.-V. 1 (Suppl.l).-C. 19−30.
- Benedict A.A., A.M.Alvarez and Pollard L.W. Pathovar-specific antigens of Xanthomonas campestris pv. begoniae and X. campestris pv. pelargonii detected with monoclonal antibodies.//Appl. Env. Microbiol. -1990, -B.56.-C.572−574.
- Bhat NA, Masoodi SD 2000. Efficacy of various antibiotics against Xanthomonas campestris pv. campestris the casual pathogen of black rot of cabbage.// Applied Biological Research, 2000. -V.2. -C. 161−163
- Boechner B. Sleughthing out bacterial identities. //Nature, -1989.-V. 339. -C.157−158.
- Bora LC, Bhattacharyya AK. Integrated management of black rot of cabbage caused by Xanthomonas campestris (Pammel) Dowson.// Journal of the Agricultural Science Society of North East India, -2000.-V. 13. -C. 2, 229−233
- Bouarab, K., Potin, P., Correa, J., Kloareg, B. Sulfated Oligosaccharides Mediate the Interaction between a Marine Red Alga and Its Green Algal Pathogenic Endophyte. //Plant Cell -1999.-V. 11. -C. 1635−1650
- Bradbury JF, Guide to plant pathogenic bacteria. Wallingford, UK. -C. CAB International.- 1986.
- Brzoska, P., and W. Boos. Characteristics of a ugp-encoded and phoB-dependent glycerophosphoryl diester phosphodiesterase which is physically dependent on the Ugp transport system of Escherichia coli.// J. Bacteriol. -1988. -V.170. -P. 4125−4135.
- Camargo L.E.A., Williams P.H., Osborn T.S. Mapping of quantitative trait loci controlling resistance of Brassica oleracea to Xanthomonas campestris pv. campestris in field and greenhouse. //Phytopathology .- 1995.-V. 85. -C. 1296— 1300
- Caponero A., Iacobellis N.S., Foci of 'black rot' on cauliflower in Basilicata. //Informatore Agrario, -1994.-V. 50(25). -C.67−68.
- Carter E.M. Diseases of crucifers. Farmnote. //Western australian Dept. Agr. 124/83, 1983.
- Casper-Lindley, C., Dahlbeck, D., Clark, E. T., Staskawicz B. J. Direct biochemical evidence for type III secretion-dependent translocation of the AvrBs2 effector protein into plant cells. //Proc. Natl. Acad. Sci. U. S. A. .-2002.-V. 99. -C. 8336−8341
- Castellane PD, Braz LT, Evaluation of cabbage cultivars during the spring in Jaboticabal, Sao Paulo.// Horticultura Brasileira,-1991 .-V. 9(1). -C.13−14, 6 ref.
- Catara V., Branca F., Bella P. Outbreak of’black rot1 of Brassicaceae in Sicily. //Informatore-Fitopatologico. -1999.-V. 49(1−2). -C. 7−10
- Century K. S., Shapiro A. D., Repetti P. P., Dahlbeck D., Holub E., Staskawicz B. J. NDR1, a Pathogen-Induced Component Required for Arabidopsis Disease Resistance. //Science -1997.-V. 278. -C. 1963−1965
- Chang CJ, Donaldson R, Crowley M, Pinnow D, A new semiseleetive medium for the isolation of Xanthomonas campestris pv. campestris from crucifer seeds. //Phytopathology,-199L.-V. 81(4)^-0.449−453^
- Chen J., Roberts P., and Gabriel D.W. Effects of a virulence locus from Xanthomonas campestris 528T on pathovar status and ability to elicit blight symptoms on crucifers. //Phytopatology, -1994, .-V. 84. -C. 1458−1464.
- Chen S, Halkier BA Functional expression and characterization of the myrosinase MYR1 from Brassica napus in Saccharomyces cerevisiae. //Protein Expr Purif -1999 .-V. 17(3). -C.414−20
- Chung W.C., Alvarez A.M., A starch methionine medium for isolation of Xanthomonas campestris pv. campestris from plant debris in soil.// Plant Disease,-1983.-V. 1. -C.633−635.
- Clarke J. D., Liu Y., Klessig D. F., Dong X. Uncoupling PR Gene Expression from NPR1 and Bacterial Resistance. -C. Characterization of the Dominant Arabidopsis cpr 6−1 Mutant. //Plant Cell -1998.-V. 10. -C. 557−570
- Clayton EE. Control of black-rot and black-leg of cruciferous crops by seed and seed bed treatments. //Phytopathology, -1924. .-V. 14. -C.24−22 .
- CMI, Description of Pathogenic Fungi and Bacteria No. 47. Xanthomonas campestris. Wallingford, UK. -C. CAB International. -1965.
- CMI,. Distribution Maps of Plant Diseases No. 136 (Ed. 5). Wallingford, UK. -C. CAB International. -1987
- Collins N., Drake J., Ayliffe M., Sun Q., Ellis, J. Hulbert S., Pryor T. Molecular Characterization of the Maize Rpl-D Rust Resistance Haplotype and Its Mutants. //Plant Cell1999.-V. 11. -C. 1365−1376
- Cook A.A., Larson R.H., Walker J.C. Relation of the black rot pathogen to cabbage seed. //Phytopathology, -1952.-V. 42. -C.316−320.
- Coyne D. P, Schuster M.L. Genetics oland breeding for resistance to bacterial pathogens in vegetable crops. //HortScience,-1983 .-V. 18(1). -C.30−36.
- Daniels M. J., C. E. Barber, D. C. Turner, W. G. Cleary, and M. K. Sawczyc. Isolation of mutants of Xanthomonas campestris pv. campestris with altered pathogenicity. J. Gen. Microbiol. -1984. -V. 130 P.2447−2455.
- De Candolle Aa. Origin of cultivated plants. Hafner Publ. Co New York 1964 reprint.
- Derie ML, Gabrielson RL, Black rot of crucifers in a cabbage seed field in Western Washington. Plant Disease, — 1988. .-V. 72(5). -C.453.
- Devoto, A., Piffanelli, P., Nilsson, I., Wallin, E., Panstruga, R., von Heijne, G., Schulze-Lefert, P. Topology, Subcellular Localization, and Sequence Diversity of the Mlo Family in PlantsJ. Biol. Chem.1999.-V. 274. -C. 34 993−35 004
- Dickson, M. D. and Hunter, J. E. Juvenile black rot resistance in cabbage. -C. Cruciferae Newsletter, -1985, .-V. 10. -C. 100
- Diers B. W, T.C. Osborn Genetic diversity of oilseed Brassica napus germ plasm based on restriction fragment length polymorphisms. Theor. Appl. Genet. -1994, .-V. 88. -C. 662−668
- Dinesh-Kumar, S. P., Baker, B. J. Alternatively spliced N resistance gene transcripts. -C. Their possible role in tobacco mosaic virus resistance. Proc. Natl. Acad. Sci. U. S. A.- 2000 .-V. 97. -C. 1908−1913
- Djalilov FS and Tiwari RD Soil and cabbage plant debris as ifection sources of black rot. Arch. Pthitopath. Pflanz. -1995.-V. 29. -C.383−386
- Dye DW and Lettiot RA. Genus Xanthomonas. Ed. Bushanan. 8th. ed. -1968. Pp. 339−345.
- Eastburn D. Disease management of cabbage and broccoli an IPM approach. Transactions of the Illinois State Horticultural Society, -1989.-V. 123. -C.32−35.
- Ellis, J. G., Lawrence, G. J., Luck, J. E., Dodds, P. N. Identification of Regions in Alleles of the Flax Rust Resistance Gene L That Determine Differences in Gene-for-Gene Specificity. Plant Cell.- 1999.-V. 11. -C. 495−506
- Estabrook, E. M., Yoder, J. I. Plant-Plant Communications. -C. Rhizosphere Signaling between Parasitic Angiosperms and Their Hosts. Plant Physiol. -1998.-V. 116. -C. 1−7
- Fahy PC, Persley GJ, eds., Plant bacterial diseases. A diagnostic guide. Australia North Ryde, NSW, Australia. -C. Academic Press, 1983.393 pp.
- Falk, A., Feys, B. J., Frost, L. N., Jones, J. D. G., Daniels, M. J., Parker, J. E. EDS1, an essential component of R gene-mediated disease resistance in
- Arabidopsis has homology to eukaryotic lipases. Proc. Natl. Acad. Sci. U. S. A. .-1999.-V. 96. -C. 3292−3297
- Ferreira ME, Dias JS, Mengustu A and Williams PH Screening of Portuguese cole landraces (Brassica oleracea L.) with Leptosphaeria maculans and Xanthomonas campestris pv. campestris. Euphytica .- 1993.-V. 65. -C. 219−227
- Flor, H. Current status of the gene-for-gene concept. Annu. Rev. Phytopathol.-1971.-V. 9. -C. 275−296.
- Franken A.A.J.M., Zilerentant J.F., Boonekamp P.M., Schots A. Specificity of polyclomal and momoclonal antibodies for the identification of Xanthomonas campestris pv. campestris. Netherlands J. PI. Path., 1992.-V. 98. -C.81−94
- Fukaya M, Miyagawa T, Koide H, Ohno T, Ichikawa K, 1988. Study on control of black rot of cabbage. Research Bulletin of the Aichi-ken Agricultural Research Center, .-V. 20. -C.245−251, 5 ref.
- Gabriel, D. W. Why do pathogens carry avirulence genes? Physiol. Mol. Plant Pathol. 1999. .-V. 55. -C.205−214.
- Galan, J. E., Collmer, A. Type III secretion machines. -C. bacterial devices for protein delivery into host cells. Science. -1999.-V. 284. -C.1322−1328
- Gay, P.A., Tuzun, S. Involvement of a novel peroxidase isozyme and lignification in hydathodes in resistance to black rot disease in cabbage. Canadian-Journal-of-Botany, -2000.-V. 78. -C. 1144−1149
- Gill, H.S., Lakhanpal. K.D., Sharma, S.R., Bhagchandani, P.M., TCI' a valuable addition to Snowball group of cauliflower. Indian Horticulture, -1983.-V. 27. -C.23−24.
- Goto, M., Fundamentals of bacterial plant pathology. San Diego, USA. -C. Academic Press Inc. 1992.
- Guo, H., Dickson, M.H., Hunter, J.E. Brassica napus sourses of resistance to black rot in crucifers and inheritance of resistance. HortScience. -1991.-V. 26. -C. 1545−1547.
- Gupta, D.K., Studies on black rot of cabbage in Manipur. Indian Journal of Mycology and Plant Pathology, -1991.-V. 21. -C.203−204
- Gupta, D.K., Choudhary, K.C.B. Infection of radish and rayosag seeds by Xanthomonas campestris pv. campestris. Indian Journal of Mycology and Plant Pathology, -1995.-V. 25. -C.332.
- Hagimori, M., Nagaoka, M., Kato, N. and Yoshikawa, H. Production and characterization of somatic hybrids between the Japanese radish and cauliflower. Theor. Appl.Genet. -1992. .-V. 84. -C.819−824.
- Hammerschmidt, R. Phytoalexins: What Have We Learned After 60 Years? Annu. Rev. Phytopathol. -1999. .-V. 37. -C. 285−306
- Hammond-Kosack, K. E., Tang, S., Harrison, K., Jones, J. D. G. The Tomato Cf-9 Disease Resistance Gene Functions in Tobacco and Potato to Confer Responsiveness to the Fungal Avirulence Gene Product Avr 9. Plant Cell -1998.-V. 10. -C. 1251−1266
- Hapte, M., Alexander, M. Protozooa as agents responsible for the decline of Xanthomonas campestris pv. campestris in the soil. Kenya J. Sci. Technol. (Series B), -1975.-V. 8. -C.l.
- Harman, G.E., Norton, J.M., Stasz, T.E., Humaydan, H.S. Nyolate seed treatment of Brassica spp. to eradicate or reduce black rot caused by Xanthomonas campestris pv. campestris. Rant Disease, -1987.-V. 71. -C.27−30.
- Hauben, L., Vauterin, L., Swing J,. Moore ERB. Comparison of 16s ribosomal DNA sequences of all Xanthomonas species. Int. J. Syst. Bacteriol. 1997.-V. 47. -C.328−335
- Helm J. Morphologisch-taxonomische Gliederung der Kultursippen von Brassica oleracea 1. Kulturpflanze, -1963, .-V. 11. -C.92−210.
- Henz GP, Melo PE de, Resistance of cabbage cultivars to Xanthomonas campestris pv. campestris. Pesquisa Agropecuaria Brasileira,. -1994.-V. 29(9). -C.1411−1415, 18 ref.
- Henz, G. P., Takatsu, A.3 and Reifschneider, F. J. B. Evaluation of methods of inoculating Xanthomonas campestris pathovar campestris for detecting sources of resistance in brassicas. Fitopatologia Brasileira,.- 1988.-V. 13. -C.207−210.
- Ho B.L. The etiology of soft rot, black rot and bacterial blight diseases of cabbage (Brassica oleracea var. capitata L.). MARDI Research Bulletin. -1985-V. 13(1). -C.28−37.
- Hoffmann, J. A., Kafatos, F. C., Janeway Jr., C. A., Ezekowitz, R. A. Phylogenetic Perspectives in Innate Immunity. Science .-1999.-V. 284. -C. 13 131 318
- Hossain-M.M., Mahmudunnobi-M., Hamiduzzaman-M.M., Meah-M.B. Association of Xanthomonas campestris pv. campestris with mustard seeds. Bangladesh-Journal-of-Plant-Pathology. -1997.-V. 13. -C. 41−42
- Huang T.C., Lee H.L. Hot acidified zinc sulfate as seed soaking agent for the control of crucifer black rot. Plant Protection Bulletin, Taiwan, .- 1988.-V. 30(3). -C.245−258.
- Huber GA, Gould CG. Cabbage seed treatment. Phytopathology, .- 1949.-V. 39. -C.869−875.
- Humaydan HS, Harman GE, Nedrow BL, DiNitto LV. Eradication of Xanthomonas campestris, the causal agent of black rot, from Brassica seeds with antibiotics and sodium hypochlorite. Phytopathology, .-1980.-V. 70(2). -C.127−131.
- Hunter JE, Abawi GS, Becker RF. Observations on the source and spread of Xanthomonas campestris in an epidemic of black rot in New York. Plant Disease Reporter, -1975.-V. 59(5). -C.384−387.
- Hunter JE, Dickson MH, Ludwig JW. Source of resistance to black rot of cabbage expressed in seedlings and adult plants. Plant Disease,-1987 .-V. 71(3). -C.263−266.
- Husain A., Thakur R.N. Some sources of resistance to alternaria blight of rapeseed and mustard. Indian Oilseeds J., -1963, .-V. 7. -C.259−261
- Hutcheson, S. W. Current concepts of active defense in plants. Annu. Rev. Phytopathol. .- 1998.-V. 36. -C. 59−90
- Ignatov A., Kuginuki Y and Hida K Black rot of crucifers and sources of resistance in brassicas. // Japanese Agricultural Research Quarterly, 1998. -B.32. -C. 167−172.
- Ignatov A., Kuginuki Y and Hida K. Race-specific reaction of resistance to black rot in Brassica oleracea. // European J. Plant Pathol. 1998. -B.104. -C. 821 827. ¦
- Ignatov A., Kuginuki Y and Hida K. Vascular stem resistance to black rot in Brassica oleracea. // Canadian Journal of Botany, 1999. -V.77(3). -C. 442−446.
- Ignatov A., Kuginuki Y, Kobayashi I, Masuda H, Yamada K, Hida K. Variation of pathogenicity in Xanthomonas campestris pv. campestris in Japan. // J. J. Hort. Society. 1997. -B.4 (Suppl.l). -C. 67−68. in Japanese.
- Ignatov A. Reaction of microgametophyte to black rot pathogen in resistant and susceptible genotypes of Brassica oleracea L. // III International Pollination Congress, Lethbridge, 1996, -C.110
- Ignatov A. Race-specific resistance to Xanthomonas campestris pv. campestris in Brassica rapa and B. napus. // IX Intern. Conference on Plant pathogenic Bacteria, 10−15 August 1996, Madras, India. -C.218
- Ignatov A. Resistance to black rot in brassicas. // National Symposium on Emerging Scenario in Vegetable Research and Development, 12−14 Dec. 1998. Varnashi, India. -C.267
- Ignatov A., Kuginuki Y. and Hida K. Pathotypes of Xanthomonas campestris pv. campestris in Japan. Acta Phytopathologica et Entomologica Hungarica, 1999.-B.34(3). -C.177−181.
- Ignatov A., Kuginulci Y. and Hida K. Environmentally dependent change of disease symptoms caused by Xanthomonas campestris pv. campestris on brassicas. ActaPhytopathologica etEntomologicaHungarica, 1999.-B.34(3). -C.183−186.
- Ignatov A.N., Matveeva E. V, Tsygankova S.V., Polytiko V.A., Schaad N.W. DNA polymorphism of Xanthomonas translucens in Russian Federation revealed by PCR markers and 16s-23s ITSR sequence. // Phytopathology, 2003. -v.93. -C.38−39.
- Ignatov A.N., Tsygankova S.V., Matveeva E.V., Boulygina E., Kuznetsov
- B.B., N.W.Shaad. TonB cluster in Xanthomonas and Ralstonia solanacearum is associated with host range of these plant pathogens. // X Molecular Plant-Microbe Interaction Congress. St. Petersburg, 18−25 July 2003. PBX113.
- Ignatov A., G. Monakhos, F. Jalilov. Shift of Xanthomonas campesrtis pv. campesrtis race 1 to race 0 in planta. // J. Rus. Soc. Plant Pathol. 2001. -B.2.1. C.68−70
- Ignatov A., Kuginuki Y., and Hida K. Distribution and inheritance of race-specific resistance to Xanthomonas campestris pv. campestris in Brassica rapa and
- B. napus. // J. Russian Soc. Plant Pathologists 2000. -B.l. -C.83−87.
- Ignatov A., Monakhos G.F., Djalilov F.S., J.D. Taylor. Resistance of Brassicas with B and D Genome to Xanthomonas campestris pv. campestris, Causal Agent of Black Rot. // J. Rus. Soc. Plant Pathol. 2001. -B.2. -C. 71−73
- Iwasa S. Cytogenetic studies on the artificially raised trigenomic hexaploid hybrid forms in the genus Brassica. // Jour. Fac. Agr. Kyushu Univ. 1964, -B.13.1. C. 309−318.
- Jachewski AP 1908. Annual report of diseases and damages on cultivated and wild plants. St. Petersburg. 288pp.
- Jacobs Th., Parlevliet (eds)., // Durability of disease resistance Kluwer academic Publishers, Publishers, The Netherlands. 1993.
- Jalali I., Parashar R.D. Biocontrol of Xanthomonas campestris pv. campestris in Brassica juncea with phylloplane antagonist. // Plant Disease Research, 1995. -B.10. -C. 145−147.
- Johnston T.D. Transfer of disease resistance form Brassica campestris L. to rape (B.napus L.), // Euphytica 1974. -B.23. -C.681−683.
- Kamoun, S., H.V. Kadmar, E. Tola, C.I. Kado. Incompatible interaction between crucifers and Xanthomonas campestris involve a vascular hypersensitive response. -C. role of the hrpX locus. // Molec. Plant Micr. Interact. 1992. -B.5 -C.2233−36.
- Katsunori T., Talcikawa Y., Tusuyumu S., Goto M. Bacterial spot of crucifers caused by Xanthomonas campestris pv. raphani. //Annals Phytopathological Society of Japan, 1994. -B.60. -C.281−287.
- Kauss H., Fauth M., Merten A., Jeblick W. Cucumber Hypocotyls Respond to Cutin Monomers via Both an Inducible and a Constitutive H202-Generating System. //Plant Physiol. 1999. -B. 120. -C. 1175−1182
- Kearney B., and B. J. Staskawicz. Widespread distribution and fitness contribution of Xanthomonas campestris avirulence gene avrBs2. // Nature 1990.1. B. 346 -C.385−386.
- Kelly PJ, Bones A, Rossiter JT Sub-cellular immunolocalization of the glucosinolate sinigrin in seedlings of Brassica juncea. // Planta 1998.-B.206(3).1. C.370−7
- Kennedy BW, Alcorn SM, Estimates of U.S. crop losses to procaryote plant pathogens. //Plant Disease, 1980. -B.64(7). -C.674−676.
- Kim BS, Testing for detection of Xanthomonas campestris pv. campestris in crucifer seeds and seed disinfection. // Korean Journal of Plant Pathology, 1986. -B.2(2). -C.96−101.
- Kishun R. Seed treatment for control of cabbage black rot.// Journal of Turkish Phytopathology, 1984. -B.13(2/3). -C.81−86.
- Kliciewickz J.M., Pound G.S. Studies on control of black rot of crucifers by treating the seeds with antibiotics.// Phytopathology, 1991. -B.51. -C.495−500.
- Kobayashi Y, Mitani E, Kobayashi Y, Dai K, Detection method of Xanthomonas campestris pv. campestris in crucifer seed.// Research Bulletin of the Plant Protection Service, Japan, 1994. No. 30. -C.131−135
- Kocks C.G., Zadocks J.C. Cabbage refuse piles as sources of inoculum in black rot epidemics. // Plant Disease. 1996. -B.80. -C.789−792.
- Kousik C. S., and D. F. Ritchie. Disease potential of pepper bacterial spot pathogen races that overcome the Bs2 gene for resistance. // Phytopathology 1996 -B.86 -C.1336−1343.
- Kritzman G, Ben-Yephet Y. Control by metham-sodium of Xanthomonas, campestris pv. campestris and the pathogen’s survival in soil.// Phytoparasitica, 1996. 18(3). -C.217−227
- Kuan TL, Minsavage GV, Schaad N.W. Aerial dispersal of Xanthomonas campestris pv. campestris from naturally infected Brassica campestris.// Plant Disease, 1986. -B.70. -C.409−413.
- Kumar S, Kotur SC, Effect of boron on susceptibility of cauliflower to black rot. // Indian Phytopathology, 1991. -B.44(2). -C.153−157.
- Lambe R.C., Lacy G.H. Controls for two important diseases. -C. black rot and black leg of cabbage. // American Vegetable Grower, 1982. -B.30. -C.10−12.
- Leach, J. E., and F. F. White. Bacterial avirulence genes. // Annu. Rev. Phytopathol. 1996. V. 34 P. 153−179.
- Lee Y.H., Yoon I. S,. Suh S.C., Kim H.I. Enhanced disease resistance in transgenic cabbage and tobacco expressing a glucose oxidase gene from Aspergillus niger. //Plant Cell Reports. 2002, -B.20. -C.857−863
- Leister D., Kurth J., Laurie D. A., Yano M., Sasaki T., Devos K., Graner A., Schulze-Lefert, P. Rapid reorganization of resistance gene homologues in cereal genomes. //Proc, Natl. Acad.Sci. U. S. A.1998.-B.95.-C. 370−375
- Leite R. M. V. B. C., Ruano O., and Komori N. Characterization of Xanthomonas campestris pv. campestris isolated from canola. // Summa Phytopathologie^ 1994, -B.20. -C. 35−38.
- Lenka S, Ram S. A note on the efficacy in vivo of various antibiotics and fungicide chemicals against Xanthomonas campestris pv. campestris causing black rot of cauliflower. // Orissa Journal of Horticulture. 1997, -B.25. -C. 1, 90−92
- Leyns F., Cleene, M. d., Swings J.-G., and Ley J. D. The host range of the genus Xanthomonas.//Botanical review, 1984, -B. 50. -C. 308−356.
- Li C.W. The origin, evolution, taxonomy and hybridization of Chinese cabbage. // In. -C. Talekar NS, Griggs TD,(eds) Chinese cabbage. Asian Vegetable Research Centre, Taiwan, 1980. -C.l-10.
- Liao C.-H. and Wells J. M Association of pectolitic starins of Xanthomonas campestris with soft rot of fruits and vegetables at retail markets. // Phytopatology, 1987, -B.77.-C.418−422.
- Lin CY. Studies on black rot of cruciferous crops caused by Xanthomonas campestris pv. campestris in Taiwan. // Plant Protection Bulletin, Taiwan, 1981. -B.23(3). -C.157−167.
- Liu, J.H., C. Dixelius, I. Eriksson, R. Glimelius, Brassica napus (+) B. tournefortii, a somatic hybrid containing traits of agronomic importance for rapeseed breeding. // Plant Sei. 1995, -B.109. -C.75−86.
- Llanos Palop M, Smiths JP, Brink BT Degradation of sinigrin by Lactobacillus agilis strain R16. // Int J Food Microbiol 1995. -B.26(2). -C.219−29
- Louws F.J., Fulbright D.W., Stephens C.T., de Bruijn F.J. Differentiation of genomic structure by rep-PCR fingerprinting to rapidly classify Xanthomonas campestris pv. vesicatoria. //Phytopathology, -1995, -B.85. -C.528−536.
- Lundsgaard T, A method for detection of Xanthomonas campestris (Pammel) Dowson in Brassica seeds. // Statents Plantetylsyn, -1973. -B. 21. -C.3438. ----- -
- Lyons F.N., Taylor J. Serological detection and identification of bacteria from plants by the conjugated Staphylococcus aureus slide agglutination test. // Plant Pathology, -1990. -B.39. -C.584−590.
- Maddox D. Regulatory needs for standardized seed health tests // In. -C. McGee DC, ed. Plant Pathogens and the Worldwide Movement of Seeds. St. Paul, USA. -C. APS Press, -1997. -C.81−92.
- Mangin, B., Thoquet, P., Olivier, J., Grimsley, N. H. Temporal and Multiple Quantitative Trait Loci Analyses of Resistance to Bacterial Wilt in Tomato Permit the Resolution of Linked Loci. // Genetics -1999. -B.151. -C. 1165−1172
- Mariano RLB, Barros ST, Menezes M, Pio-Ribeiro G, 1985. Detection of Xanthomonas campestris pv. campestris in batches of commercial Brassica seeds. // Fitopatologia Brasileira, .-V. 10(3). -C.423−426.
- May G., Shaw F., Badrane H., Vekemans X. The signature of balancing selection. -C. Fungal mating compatibility gene evolution. //Proc. Natl. Acad. Sci. U. S. A. -1999.-V. 96. -C. 9172−9177
- McCuloch L.A. A bacterial leaf spot of horse-radish caused by Bacterium campestris var. armoraciae. //N.Var J.Agr. Res. -1929, .-V. 38. -C.269−287.
- McElhaney R, Alvarez AM, Kado C.I. Nitrogen limits Xanthomonas campestris pv. campestris invasion of the host xylem. //Physiological and Molecular Plant Pathology. -1998, .-V. 52. -C. 1, 15−24
- McGrath J.M., Quiros C.F. Genetic diversity at isozyme and RFLP loci in Brassica campestris as related to crop type and geographical origin. //Theor. Appl.----- Genet. -1992.-V. 83.-C. 783790.
- McGrath JM, Quiros CF. Interspecies hybrids and their progeny in Brassica campestris L. //J Am. Soc. Hortic Sci. 1991.-V. 116. -C.349−355.
- Mckeen WE. Black rot of rutabaga in Ontario and its control. //Canadian Journal of Plant Pathology, .-1981.-V. 3. -C.244−246.
- Meyers, B. C., Chin, D. B., Shen, K. A., Sivaramakrishnan, S., Lavelle, D. O., Zhang, Z., Michelmore, R. W. The Major Resistance Gene Cluster in Lettuce Is Highly Duplicated and Spans Several Megabases. //Plant Cell .-1998.-V. 10. -C. 1817−1832
- Michelmore, R. W., Meyers, B. C. Clusters of Resistance Genes in Plants Evolve by Divergent Selection and a Birth-and-Death Process. //Genome Res. -1998.-V. 8.-C. 1113−1130
- Mihail JD, Taylor SJ, Verslues PE, Hodge NC, Bacterial blight of Crambe abyssinica in Missouri caused by Xanthomonas campestris. //Plant Disease. -1993.- 77(6). -C.569−574.
- Mingochi, D. S. and Jensen, A. Reaction of rape and Ethiopian mustard selections to blackrot and turnip mosaic virus (TuMV) in Zambia. // Acta Horticultural. -1988, .-V218.
- Minsavage GV, Schaad NW, Characterization of membrane proteins of Xanthomonas campestris pv. campestris. //Phytopathology,.- 1983.-V. 73. -C.747−755.
- Miura, Y., Shimazu, R., Miyake, K., Akashi, S., Ogata, H., Yamashita, Y., Narisawa, Y., Kimoto, M. RP105 Is Associated With MD-1 and Transmits an Activation Signal in Human B Cells. //Blood .-1998. -V. 92. -C. 2815−2822
- Mizushima U. On several artificial alloploids obtained in the tribe Brassiceae of Cruciferae. //Tohoku J. Agr. Res. -1950, .-V. 1. -C. 15−27
- Mohapatra, D. and Y.P.S. Bajaj. Interspecific hybridization in Brassica juncea x Brassica hirta using embryo rescue.// Euphytica, .- 1987. -V.36. -C. 321 326.
- Molina, A., Hunt, M. D., Ryals, J. A. Impaired Fungicide Activity in Plants Blocked in Disease Resistance Signal Transduction. //Plant Cell .-1998.-V. 10. -C. 1903−1914
- Morinaga T. Intespecific hybridization in Brassica. 1. The cytology of F1 hybrids of N. napella and various other species with ten chromosomes. //Cytologia .-1929.-V. 1. -C. 16−27.
- Morris ER, Molecular origin of xanthan solution properties. //In. -C. Sandford PAS, Lankins A, eds. Extracellular Microbial Polysaccarides Symposium 45, Washington, D.C., USA, 1977.-C.81−83.
- Muhiar M, Khlaif H 2000. Black rot disease of Cruciferae in Jordan.: host range, and response of some crucifer cultivars to the disease Dirasat. //Agricultural Sciences. -2000, .-V. 27(1). -C. 26−33
- Murphy, J.-E., Robert, C., Kupper, T. S. Interleukin-1 and Cutaneous Inflammation. -C. A Crucial Link Between Innate and Acquired Immunity.// J Invest Dermatol .-2000.-V. 114. -C. 602−608
- Napoles P, Amat Z, Ramirez P, 1991. The use of different treatments to control Xanthomonas campestris pv. campestris in cabbage seeds. //Proteccion de Plantas,-1991.-V.l (3−4).-C33−41
- Navaratnam SJ, Shuttleworth D, Wallace D, The effect of aerated steam on six seed-borne pathogens. //Australian Journal of Experimental Agriculture and Animal Husbandry, -1980.-V. 20(102). -C.97−101.
- Navarre, D. A., Wendehenne, D., Durner, J., Noad, R., Klessig, D. F. Nitric Oxide Modulates the Activity of Tobacco Aconitase. //Plant Physiol.-2000 .-V. 122. -C. 573−582
- Nemeth J, Laszlo EM,. Bacterial black rot (Xanthomonas campestris (Pammel) Dowson 1939) of Brassica species.// Novenyvedelem, -1983 .-V. 19(9). -C.391−397.
- Nishi, S., J. Kawata, M. Toda, In the breeding of interspecific hybrids between two genomes 'C' and 'A' of Brassica through the application of embryo culture technique. //Japan J.Breed.. -1959, .-V. 5. -C.215−222.
- Obradovic A, Arsenijevic M, Drajzera T 1999. First report of black rot of cauliflower and kale caused by Xanthomonas campestris pv. campestris in Yugoslavia. //Plant Disease, -1999.-V. 83. -C. 10, 965.
- Ohata, K.-I., Azegami, K., and Tsuchiya, Y. Clip inoculation, a brief evaluation method for the black rot resistance of cabbage varieties. //Bull Natl Inst Agrie Sci, -1982.-V. 36, p. 89−96.
- Onsando JM,. Management of black rot of cabbage caused by Xanthomonas campestris pv. campestris in Kenya.// Acta Horticulturae, 1988.-V. 218. -C.311−314, 8ref.
- Park, S.-Y., Jauh, G.-Y., Mollet, J.-C., Eckard, K. J., Nothnagel, E. A., Walling, L. L., Lord, E. M. A Lipid Transfer-like Protein Is Necessary for Lily Pollen Tube Adhesion to an in Vitro Stylar Matrix. //Plant Cell.-2000.-V. 12. -C. 151−164
- Petrie G.A. Diseases of Brassica species in Saskatchewan, 1970−72. II. Stem and leaf spots. //Canad. Plant diis.Surv. -1973, .-V. 53(2). -C.83−87.
- Petrie G.A. Diseases of Brassica species insaskatchewan, 1970−72. III. Stem and root rots. //Canad. Plant diis. Surv. -1973, .-V. 53(2). -C.88−92.
- Pichard B, Thouvenot D Effect of Bacillus polymyxa seed treatments on control of black-rot and damping-off of cauliflower.// Seed Science and Technology. -1999, .-V. 27(2). -C. 455−465.
- Pierce L, Schroth MN, McCain AH, Viscosity test for preliminary identification of strains of Xanthomonas campestris. //Plant Disease, 1990. .-V. 74(9). -C.646−647.
- Plumb-Dhinsa P, Mondajne AM, Index of plant diseases and associated organisms of Mozambique. //Tropical Pest Management, 1983.-V. 30. -C.407−429.
- Poplawsky AR, Chun W. Strains of Xanthomonas campestris pv. campestris with atypical pigmentation isolated from commercial crucifer seeds. //Plant Disease, -1995.-V. 79(10). -C.1021−1024.
- Prakash S., Hinata K. Taxonomy, cytogenetics and origin of crop Brassicas, a review. //Opera Bot. -1980, .-V. 55. -C. 1−57.
- Primard, C., F. Vedel, C. Mathieu, G. Peletier and A.M.Chevre. Interspecific somatic hybridization between Brassica napus and Brassica hirta (Sinapis alba L.), //Theor. Appl. Genet., -1988, -V.75. -C. 546−552.
- Quiros CF., Ochoa O., Douches D. Exploring the role of x+7 species in Brassica evolution. -C. hybridization with B. nigra and B. oleracea.// J Hered.-1988 .-V. 79.-C. 351−358.
- Raju UJ, Sivaprakasam K. Survey on pests and diseases of cabbage. //Madras Agricultural Journal,.- 1989.-V. 76(4). -C. 192−196, 17 ref.
- Ram Kishun, Ramesh Chand, Kishun R, Chand R, Epiphytical survival of Xanthomonas campestris pv. campestris on Centella asiatica (L.) //Urban. International Journal of Tropical Plant Diseases. -1988. .-V. 6. -C. 189−193.
- Randhawa P, Schaad NW. Selective isolation of Xanthomonas campestris pv. campestris from crucifer seeds. //Phytopathology, -1984.-V. 68. -C.249−252.
- Rathjen, J. P., Chang, J. H., Staskawicz, B. J., Michelmore, R. W. Constitutively active Pto induces a Prf-dependent hypersensitive response in the absence of avrPto. //EMBO J.-1999. .-V. 18. -C. 3232−3240
- Redstone, S. et al. -C. Review of Xanthomonas campestris pv. campestris in the cauliflower crop in West Cornwall, UK. //In. -C. ISHS Symposium on brassicas. 10th Crucifer Genetics Workshop. 23−27 Sept. Rennes-France 1997., p. 216.
- Ripley, V.L. and P.G.Arnison. Hybridization of Sinapis alba and Brassica napus L. via embryo rescue. Plant Breeding, -1990, .-V. 104. -C. 26−33.
- Roberts IN, Dow JM, Lum KY, Scofield G, Barber CE, Daniels MJ. Antiserum against Xanthomonas phytopathogen inhibits host-pathogen interactionin seedlings of Brassiea eampestris.// FEMS Microbiology Letters, -1987.-V. 44(3). -C.383−387.
- Roberts SJ and Koenraadt H Proposal for a revised method for detection of Xanthomonas eampestris pv. eampestris in Brassiea seed. //Seed Science and Technology -2002.-V.30. Cited from http. -C.//www.worldseed.org/pdf/WS-xcc-brassica-cabbage.pdf
- Rodrigues Neto J, Malavolta Junior VA, Diseases caused by bacteria on crucifers (Doencas causadas por bacterias em cruciferas). //Informe Agropecuario, Belo Horizonte, -1995. 17. -C.56−59.
- Rossi, M., Goggin, F. L., Milligan, S. B., Kaloshian, I., Ullman, D. E., Williamson, V. M. The nematode resistance gene Mi of tomato confers resistance against the potato aphid. //Proc. Natl. Acad. Sci. U. S. A. 1998.-V. 95. -C. 97 509 754
- Ruissen MA, Gielink AJ, The development of black rot in cabbage as a result of difference in guttation between cultivars. //Proceedings of the Eight International Conference on Plant Pathogenic Bacteria, 9−12 June, Versailles, France. 1993.
- Russel, H. L. A bacterial rot of cabbage and allied plants.//Wisc. Agric. Sta. Bull., 1898, 65pp.
- Ryder, M. H., M. E. Tate, and G. P. Jones. Agrocinopine A, a tumorOinducing plasmidOcoded enzyme product, is a phosphodiester of sucrose and L-arabinose. //J. Biol. Chem. -1984.-V.259. -P. 9704−9710.
- Saini LC, Parashar RD, Comparative efficacy of stable bleaching powder with other antibacterial formulations in controlling black and soft rot of cauliflower. //Indian Phytopathology,. -1981.-V. 34(4). -C.465−469.
- Sambrook, J., E. F. Fritsch, and T. Maniatis. // Molecular cloning. -C. a laboratory manual, 2nd ed. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. 1989.
- Santiranjan Bandyopadhyay, Chattopadhyay SB, Survival of Xanthomonas campestris pv. campestris in soil. //Indian Journal of Mycological Research, -1986.-V.24(2). -C.97−101.
- Satyavir CD, Kaushik CD, Chand JN, The occurrence of bacterial rot of raya (Brassicajuncea Coss.) inHaryana. //PANS -1973 .-V. 19. -C.46−47.
- Scenck, H.R. and G. Robbelen. Somatic hybrids by fusion of protoplasts from Brassica oleracea and B. campestris. //Z. Pflanzenzuchtg. -1982 .-V. 89. -C. 278−288.
- Schaad NW (Editor) Laboratory guide for identification of plant pathogenic bacteria. //St. Paul, Minnesota, USA, APS Press, 1988.Ed. 2. -C.164 pp.
- Schaad NW. Use of direct and indirect immunofluorescence tests for identification of Xanthomonas campestris. //Phytopathology, 1978.-V. 68(2). -C.249−252.
- Schaad NW, Detection of seedborne bacterial plant pathogens. //Plant Disease, -1982.-V. 66(10). -C.885−890.
- Schaad NW. Correlation of laboratory assays for seedborne bacteria with disease development. //Seed Science and Technology, 1983.-V. 11. -C.877−883.
- Schaad N.W. Inoculum thresholds of seedborne pathogens. Bacteria. Phytopathology. -1988. .-V. 78(6). -C.872−875.
- Schaad NW, 1989. Detection of Xanthomonas campestris pv. campestris in crucifers.// In. -C. Saettler AW, Schaad NW, Roth DA eds. Detection of Plant Pathogenic Bacteria in Seeds and Other Planting Materials. St. Paul, MN, USA. -C. APS Press, 68−75.
- Schaad N.W., Dianese J.C. Cruciferous weeds as sources of inoculum of Xanthomonas campestris in black rot of crucifers. //Phytopathology,-198l.-V. 71(11). -C.1215−1220.
- Schaad N.W., Donaldson R.C., Comparison of two methods for detection of Xanthomonas campestris in infected crucifer seeds. //Seed Science and Technology, .-1980.-V. 8(3). -C.383−391.
- Schaad N.W., Franken A.A.J.M. Xanthomonas campestris pv. campestris. Working Sheet 68.// ISTA Handbook On Seed Health Testing. Zurich, Switzerland. -C. International Seed Testing Association. 1997.
- Schaad NW, Gabrielson RL, Mulanax MW. Hot acidified cupric acetate soaks for eradication of Xanthomonas campestris from crucifer seeds. //Applied and Environmental Microbiology, -1980.-V. 39(4). -C.803−807.
- Schaad NW, Kendrick R, 1975. A qualitative method for detecting Xanthomonas campestris in crucifer seed. //Phytopathology -1975.-V. 65(9). -C.1034−1036.
- Schaad NW, Sitterly WR, Humaydan H, Relationship of incidence of seedborne Xanthomonas campestris to black rot of crucifers. //Plant Disease -1980. -V. 64(1). -C.91−92.
- Schaad NW, Thaveechai N, Black rot of crucifers in Thailand.// Plant Disease -1983.-V. 67(11). -C.1231−1234.
- Schaad NW, White WC, Survival of Xanthomonas campestris in soil. //Phytopathology, -1974.-V. 64(12). -C.1518−1520.
- Schultz T, Gabrielson RL, 1986. Xanthomonas campestris pv. campestris in Western Washington crucifer seed fields. -C. occurrence and survival. //Phytopathology-1986. -V. 76(12). -C.1306−1309.
- Schultz T, Gabrielson RL, Olson S, Control of Xanthomonas campestris pv. campestris in crucifer seed with slurry treatments of calcium hypochlorite.// Plant Disease, -1986.-V. 70(11). -C. 1027−1030.
- Scortichini M, Rossi MP, Ruggini L, Cinti S. Recurrent infections of Xanthomonas campestris pv. campestris in Cruciferae in some areas of central-southern Italy. //Informatore Fitopatologico .-1994.-V. 44. -C.48−50.
- Sessa, G., D’Ascenzo, M., Martin, G. B. The major site of the Ptil kinase phosphorylated by the Pto kinase is located in the activation domain and is required for Pto-Ptil physical interaction.// Eur J Biochem -2000.-267. -C. 171−178
- Sessa, G., DAscenzo, M., Loh, Y.-T., Martin, G. B. Biochemical Properties of Two Protein Kinases Involved in Disease Resistance Signaling in Tomato. //J. Biol. Chem. .-1998.-V. 273. -C. 15 860−15 865
- Shackelton DA, 1962. A method for the detection of Xanthomonas campestris (Pammel, 1985) Dowson 1939, in Brassica seed.// Nature, -1961.-V. 193. -C.78.
- Shah A, Srivastava KK, Roy AJ, Bora SS, Control of black rot disease of cauliflower by seed treatment. //Progressive Horticulture, — 1985.-V. 17(1). -C.72−74.
- Shakya DD, Malla G, Studies on black rot of crucifers. //In. -C. Proceedings of National Conference on Science and Technology. Royal Nepal Academy of Science and Technology, April 24−29, 1988, Kathmandu, Nepal.
- Sharma BR, Swarup V, Chatterjee SS, Resistance to blackrot disease (Xanthomonas campestris (Pam.) Dowson) in cauliflower. //Scientia Horticulturae, 1977.-V. 7(1). -C.l-7.
- Sharma J, Agrawal K, Singh D. Detection of Xanthomonas campestris pv. campestris (Pammel) Dowson infection in rape and mustard seeds. //Seed Research, — 1992.-Y. 20. -C.128−133.
- Sharma SL. Control of black rot of cauliflower by hot water seed treatment and field sprays with streptocycline. //Indian Journal of Mycology and Plant Pathology, -1981.-V. 11(1). -C.17−20.
- Sharma, T.R. and B.M.Singh. Transfer of resistance to Alternaria brassicae in Brassica juncea through interspecific hybridization among brassicas.// J.Genet. & Breed. -1992, .-V. 46. -C.373−378.
- Shekhawat PS, Jain ML, Chakravarti BP, Detection and seed transmission of Xanthomonas campestris pv. campestris causing black rot of cabbage andcauliflower and its control by seed treatment. //Indian Phytopathology, -1982.-V. 35(3). -C.442−447.
- Shelton AM, Hunter JE. Evaluation of the potential of the flea beetle Phyllotreta cruciferae to transmit Xanthomonas campestris pv. campestris, causal agent of black rot of crucifers. //Canadian Journal of Plant Pathology, -1985.-V. 7(3). -C.308−310.
- Shen, JF, Chen WL, Preliminary study of cruciferous black rot in Zhenjiang. Acta Agriculturae Universitatis Zhejiangensis, -1990.-V. 16. -C. 252−257.
- Sherf AF, MacNab AA, 1986. Vegetable diseases and their control. //Vegetable diseases and their control., Ed. 2. -728 pp.
- Shinohara S. 1959. Cabbage. Sangyo-Tosho. Tokyo In Japanese.
- Shiomi T. Dry heat sterilization for seed stain of cabbage black rot disease. //Agriculture and Horticulture, -1991.-V. 66(10). -C.l 177−1180, 21 ref.
- Shrestha K, 1983. Major diseases and control of vegetable crops.// In. -C. Second Vegetable and Seed Production Workshop, February 1, 1983, Kathmandu.
- Shrestha K, Mathur SB, Neergaard P. Seed-borne organisms in some crops of Nepal. //Seed Science and Technology, -1977.-V. 5(1). -C.l 11−121.
- Shuckla P, Singh RP, Summer R. Chemical control of black rot of cauliflowers. //Pesticides, -1979.-V. 13. -C.51.
- Shyam KR, Gupta SK, Mandraia RK. Prevalence of different types of curd rots and extent of yield loss due to plant mortlity in cauliflower seed crop. //Indian Journal of Mycology and Plant Pathology, -1994.-V.24. -C. 172−175.
- Silva Junior AA, Miura L. Cabbage cultivars for summer cultivation on the coast of Santa Catarina. Pesquisa em Andamento, //EMPASC, -1986.-V. 54. -C.4pp.
- Sinskaia E.N. The oleiferous plants and root crops of the family Cruciferae. //Bull. Appl. Bot. Plant Breed.. 1928, .-V. 19. -C. 1−648.
- Sinskaia E.N. Genosystematical investigation of cultivated Brassica. //Bull Appl Bot Plant Breed .-1927.-V. 17. -C.l-166
- Smith EF, Bacteria in Relation to Plant Disease, Vol. II. Washington, D.C., USA. -C. Carniege Institution. 1911.
- Song K.M., T.C. Osborn and P.H.Williams. Brassica taxonomy based on nuclear restriction fragment lengh polymorphism (RLFPs). 1. Genome evolution of diploid and amphidiploid species. //Theor Appl Genet. 1988, .-V. 75. -C.784−794
- Song KM, Osborn TC, Williams PH. Brassica taxonomy based on nuclear restriction fragment length polymorphisms (RFLPs). 2. Preliminary analysis of subspecies within B. rapa (syn. campestris) and B. oleracea. //TAG .-1988.-V. 76. -C.593−600.
- Srinivasan MC, Neergaard P, Mathur SB. A technique for detection of Xanthomonas campestris in routine seed health testing of crucifers.// Seed Science and Technology -1973.-V. 1(4). -C.853−859.
- Stall RE, Gottwald TR, Koizum M, Schaad NW, Ecology or plant pathogenic xanthomonads. //In. -C. Swings JG, Civerolo EL, eds. Xanthomonas, 1st ed. London, UK. -C. Chapman and Hall, -1993.-C.265−299.
- Starr MP, Jenkins CL, Bussey LB, Andrewes AG, Chemotaxonomic significance of the xanthomonadins, novel brominated aryl-polyene pigments produced by bacteria of the genus Xanthomonas. //Archives of Microbiology, -1977.-V. 113(½). -C.l-9.
- Staub T and Williams PH 1972. Factors influencing black rot lesions development in susceptible and resistant cabbage.// Phytopathology .-V. 62. -C. 722−728
- Strandberg J, 1973. Spatial distribution of cabbage black rot and the estimation of diseased plant populations. //Phytopathology, .-V. 63(8). -C.998−1003.
- Sundberg E. and Glimelius K. Effect of parental ploidy level and genetic divergence on chromosome elimination and chloroplast segregation in somatic hybrids within Brassicaceae. Theor Appl Genet. .-V. 1991, 83. -C.81−88.
- Sundberg, E. and K.Glimelius. A method for production of interspecific hybrids within Brasiceae via somatic hybridization, using resynthesis of Brassica napus as a model. //Plant Sci. 1986, 43. -C. 155−163.
- Sunita Suneja, Lakshminarayana K, Gupta, PP, Suneja S, 1994. Role of Azotobacter chroococcum siderophores in control of bacterial rot and Sclerotinia rot of mustard. Indian Journal of Mycology and Plant Pathology, .-V. 24. -C.202−205.
- Sutton, J. C. and Williams, P. H. Relation of xylem plugging to black rot lesions development in cabbage. //Can. J. Botany, 1969, 48. -C. 391−401.
- Szymanski, D. B., Marks, M. D., Wick, S. M. (1999). Organized F-Actin Is Essential for Normal Trichome Morphogenesis in Arabidopsis. //Plant Cell .-V. 11. -C. 2331−2348
- Takahata, Y. and K.Hinata. Studies on cytodemes in subtribe Brassicinae (Cruciferae), //Tohoku J. Agr. Res. 1983, .-V. 33. -C.l 11−124.
- Takeda T. Studies on the synthesized hexaploid plants in genus Brassica Its stability and significance in plant breding. //ANN. Rep. Fac. Education, Iwate Univ. 1983, .-V. 42. -C. 75−217.
- Takeshita, M., M. Kato, and S.Tokumasu. Application of ovule culture to the production of intergeneric or interspecific hybrids in Brassica and Raphanus. //Japan. J.Genetics. 1980, .-V. 55,5. -C.373−387.
- Tang, X., R. D. Frederick, J. Zhou, D. A. Halterman, Y. Jia, and G. B. Martin. Initiation of plant disease resistance by physical interaction of AvrPto and Pto kinase. // Science 1996. V. 274 P.2060−2063.
- Tang X., Xie, M., Kim, Y. J., Zhou, J., .Klessig, D. F., Martin, G. B. (1999). Overexpression of P to Activates Defense Responses and Confers Broad Resistance. //Plant Cell .-V. 11. -C. 15−30
- Taylor J.D., Conway J., Roberts S.J., Astley D., Vicente J.G. Sources and origin of resistance to Xanthomonas campestris pv. campestris in Brassica genomes. //Phytopathology. 2002, -B.92. -C. 105−111
- Taylor C. B. Defense Responses in Plants and Animals—More of the Same. // Plant Cell 1998. -B.10. -C. 873−876
- Terada R., Y. Yamashita, S. Nishibayashi, K. Shimamoto. Somatic Hybrids between Brassica oleracea and B. campestris. -C. selection by the use of iodoacetamide inactivation and regeneration ability. // Theor. Appl. Genet. 1987, -B.73. -C. 379−384.
- Tewari R.N., Chatterjee S.S., Swarup V. Inheritance of resistance to black rot (Xanthomonas campestris) in cabbage. Vegetable Science, 1979. -B.6. -C. 2736.
- Todd J.J., Vodkin L.O. Duplications that suppress and deletions that restore expression from a chalcone synthase multigene family. // Plant Cell 1996, -B.8. -C. 687−699.
- Tsuji J., Somerville S.C. First report of natural infection of Arabidopsis thaliana by Xanthomonas campestris pv. campestris. // Plant Disease 1992. -B.76. -C.539.
- Tsuji J., Somerville S.C., Hammerschmidt R. Identification of a gene in Arabidopsis thaliana that controls resistance to Xanthomonas campestris pv. campestris. //Physiological and Molecular Plant Pathology, 1991. -B.38. -C.57−65.
- Tsygankova S.V., A.N. Ignatov, E.S. Boulygina, B.B. Kuznetsov, E.V. Korotkov. Genetic intraspecies relationships in Xanthomonas campestris pv. campestris revealed by novel rep-PCR primers. // European J. Plant Pathol. 2004. -B.110.-C. 845−853
- Turner J.R.G. On supergenes. 1. The evolution of supergenes. // Amer. Nat. 1967 101 p 919.
- Van den Mooter M, Swings J. Numerical analysis of 295 phenotypic features of 266 Xanthomonas strains and related strains and an improved taxonomy of the genus. // International Journal of Systematic Bacteriology, 1990. -B.40. -C.348−369.
- Vauterin L., Hoste B., Kersters K., Swings, J. Rectification of Xanthomonas. // Int. J. Syst. Bacteriology. 1995. -B.45. -C. 472−489
- Vavilov N.I. The origin, differentiation and breeding of cultivated plants. //Chron Bot. 1946. -B.13. -C.l-364.
- Vicente J.G., Taylor J.D., Sharpe A.G., Parkin I.A.P., Lydiate D.J., King G.J. Inheritance of Race-Specific Resistance to Xanthomonas campestris pv. campestris in Brassica Genomes. // Phytopathology, 2002. -B.92. -C.l 134−1141.
- Vicente, J. Conway, S. J. Roberts, and J. D. Taylor. Identification and Origin of Xanthomonas campestris pv. campestris Races and Related Pathovars.// Phytopathology. 2001, -B.91. -C.492−499.
- Vicente, J.G., Ignatov A., Conway J., Roberts SJ., Taylor JD. Development of an improved Brassica differential series for the identification of races of• tVi
- Xanthomonas campestris pv. Campestris.// 7 Int. Cong. Plant Pathol., Edinburgh, UK, 1998. P.2.2.71
- Vicente, J.G., J.S. Dias, J.D. Taylor. Occurrence and distribution of Xanthomonas campestris races in Portugal. // ISHS Symposium on brassicas.10 Crucifer Genetics Workshop. 1997, 23−27 September. RennesFrance, p.214.
- Vijayan P., Shockey J., Levesque, C. A., Cook R. J., Browse J. A role for jasmonate in pathogen defense of Arabidopsis. // Proc. Natl. Acad. Sci. U. S. A. 1998. -B.95. -C. 7209−7214
- Voorrips RE. Plasmodiophora brasicae aspects of pathogenesis and resistance in Brassica oleracea. // Euphytica 1995, -B.83. -C. 139−146
- Walker J.C. Origin of cabbage black rot epidemics. // Plant Disease Reporter, 1941. -B.25. -C.91−94.
- Walker J.C. 1952. // Diseases of Vegetable Crops. New York, USA. -C. McGraw-Hill Book Company, Inc.
- Warren R. F., Merritt P. M., Holub E., Innes R. W. Identification of Three Putative Signal Transduction Genes Involved in R Gene-Specified Disease Resistance in Arabidopsis.// Genetics 1999. -B. 152. -C. 401−412
- Warwick S.I. and L.D.Black. Molecular systematics of Brassica and allied genera (Subtribe Brassicinae, Brassiceae) chloroplast genome and cytodeme congruence. // Theor. Appl Genet, 1991. -B.82. -C.81−92.
- Weinrauch Y., Zychlinsky A. The induction of apoptosis by bacterial pathogens. // Annu. Rev. Microbiol. 1999. -B.53. -C. 155−187
- White H. Bacterial spot of radish and turnip. // Phytopathology. 1930.1. B.20. -C. 653−662.
- Whitham S. A., Yamamoto M. L., Carrington J. C. Selectable viruses and altered susceptibility mutants in Arabidopsis thaliana. // Proc. Natl. Acad. Sei. U. S. A. 1998. -B.96. -C. 772−777
- Williams P.H. and Hill C.B. Rapid-cycling population of Brassica and Raphanus species for genetic studies. // Eucarpia Cruciferae Newsletter. (Scottish Crop Research Institute). 1982, -B.7. -C.24−25.
- Williams P.H. Black rot. a continuing threat to world crucifers. // Plant Disease. 1980. -B.64. -C.736−742.
- Williams P. H., Staub T., Sutton J. C. Inheritance of resistance in cabbage to black rot. // Phytopathology. 1972. -B.62. -C. 247−252.
- Wills A.B. Meiotic behavior in the Brassiceae. // Caryologia 19.1966.1. C.103−116.
- Xanthomonas campestris pv. campestris, data file. Ed. A.N. Ignatov. // Plant Protection Compendium, Edition 2003, CAB International, Cambridge, UK
- Xu G.W., Gonsales C.F. Plasmid, genomic and bacteriocin diversity in U.S. strains of Xanthomonas campestris pv. oryzae. // Phytopathology. 1991. -B.81. -C.628−631.
- Yamagishi H., M. Hirai, H. Yoshikawa, S.Yui. Production of somatic hybrid between black mustard (Brassica nigra Koch., BB) and hakuran (B.napus L., AACC) // Japan. J. Breeding 1989. -B.39. -C.229−233.
- Yamagishi H., M.M. Hossain, K. Yonezawa Morphology, fertility and cross-compartibility of somatic hybrids between Brassica oleracea L. and B. campestris L. // Scientia Hort. 1984. -B.58. -C. 283−288.
- Yang Y., D. W. Gabriel Xanthomonas avirulence/pathogenicity gene family encodes functional plant nuclear targeting signals. // MPMI. 1995. -B.8. -C.627−631.
- Yoshida S., Hiradate S., Tsukamoto T., Hatakeda K., Shirata A. Antimicrobial activity of culture filtrate of Bacillus amyloliquefaciens RC-2 isolated from mulberry leaves. // Phytopathology. 2001. -B.91. -C.181−187
- Young J.M., Saddler G.S., Takikawa Y., De Boer S.H., Vauterin L., Gardan L., Gvozdyak R.I., Stead D.E. Names of plant pathogenic bacteria 1864−1995. // Review of Plant Pathology. 1996. -B.75. -C.721−763.
- Yueng G.Y., Alvarez A.M., Benedict A.A., Trotter K.J. Use of monoclonal antibodies to monitor the dissemination of Xanthomonas campestris pv. campestris. // Phytopathology. 1987. -B.77 -C.366−370.
- Yueng G.Y.K., Alvarez A.M. Aberrant symptoms on cabbage caused by strains of Xanthomonas campestris.// Phytopathology. 1985.-B.75. -C.1382.
- Zhao You-Fu, Damicone J.P., Demezas D.H., Bender C.L., Zhao Y.F. Bacterial leaf spot diseases of leafy crucifers in Oklahoma caused by pathovars of Xanthomonas campestris. // Plant Disease. 2000. -B.84. -C. 1008−1014