Search Results - "Fitch, Maureen M. M"

High-density linkage mapping revealed suppression of recombination at the sex determination locus in papaya by Ma, H, Moore, P.H, Liu, Z, Kim, M.S, Yu, Q, Fitch, M.M.M, Sekioka, T, Paterson, A.H, Ming, R

“…A high-density genetic map of papaya (Carica papaya L.) was constructed using 54 F2 plants derived from cultivars Kapoho and SunUp with 1501 markers, including…”
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Agrobacterium tumefaciens-mediated transformation of taro (Colocasia esculenta (L.) Schott) with a rice chitinase gene for improved tolerance to a fungal pathogen Sclerotium rolfsii by He, Xiaoling, Miyasaka, Susan C, Fitch, Maureen M. M, Moore, Paul H, Zhu, Yun J

“…Taro (Colocasia esculenta) is one of the most important crops in the Pacific Islands, however, taro yields have been declining in Hawaii over the past 30 years…”
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Micropropagation of Hermaphrodite Papayas: Increased Root Induction and Plant Survival during Acclimatization by Fitch, Maureen M. M., Ancheta, Mary Joy, Huynh, Luyen C., He, Xiaoling, Ortega, Marjorie A., Fields, Hideko K., Murakami, Carol M., Shaw, Josienellie R., Lopez, Jeremiah-James

“…In Hawaii, the commercial papaya industry is based on cultivars that segregate as females or hermaphrodites. Multiple seedlings are planted and then thinned at…”
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Taro (Colocasia esculenta) Transformed with a Wheat Oxalate Oxidase Gene for Improved Resistance to Taro Pathogen Phytophthora colocasiae by XIAOLING HE, MIYASAKA, Susan C, FITCH, Maureen M. M, KHURI, Sawsan, ZHU, Yun J

“…Production of taro [ Colocasia esculenta (L.) Schott], a tropical root crop, is declining in many areas of the world as a result of the spread of diseases such…”
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Improved Transformation of Anthurium by Fitch, Maureen M.M, Leong, Terryl C.W, He, Xiaoling, McCafferty, Heather R.K, Zhu, Yun J, Moore, Paul H, Gonsalves, Dennis, Aldwinckle, Herb S, Atkinson, Howard J

“…Methods to increase transformation efficiency and yields of transgenic Anthurium andraeanum Linden ex. André hybrids were sought while effecting gene transfer…”
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Regeneration and Transformation of Taro (Colocasia esculenta) with a Rice Chitinase Gene Enhances Resistance to Sclerotium rolfsii by He, Xiaoling, Miyasaka, Susan C, Zou, Yi, Fitch, Maureen M.M, Zhu, Yun J

“…Genetic engineering has the potential to improve disease resistance in taro [Colocasia esculenta (L.) Schott]. To develop a method to produce highly…”
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Evaluating Hawaii-grown Papaya for Resistance to Internal Yellowing Disease Caused by Enterobacter cloacae by Nishijima, Kate A, Wall, Marisa M, Fitch, Maureen M, Sugiyama, Lionel S, Keith, Ronald C, Nishijima, Wayne T

“…Papaya (Carica papaya L.) cultivars and breeding lines were evaluated for resistance to Enterobacter cloacae (Jordan) Hormaeche & Edwards, the bacterial causal…”
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Virus Resistant Papaya Plants Derived from Tissues Bombarded with the Coat Protein Gene of Papaya Ringspot Virus by Fitch, Maureen M. M, Manshardt, Richard M, Gonsalves, Dennis, Slightom, Jerry L, Sanford, John C

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Papaya (Carica papaya L.) by Zhu, Yun J, Fitch, Maureen M M, Moore, Paul H

“…Transgenic papaya plants were initially obtained using particle bombardment, a method having poor efficiency in producing intact, single-copy insertion of…”
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Taro (Colocasia esculenta (L.) Schott) by He, Xiaoling, Miyasaka, Susan C, Fitch, Maureen M M, Zhu, Yun J

“…Genetic engineering of taro is an effective method to improve taro quality and the resistance to various diseases of taro. Agrobacterium tumefaciens-mediated…”
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A Histochemical Method Using a Substrate of β-Glucuronidase for Detection of Genetically Modified Papaya by WAKUI, Chiseko, AKIYAMA, Hiroshi, WATANABE, Takahiro, FITCH, Maureen M. M., UCHIKAWA, Seiji, KI, Masami, TAKAHASHI, Kunihiko, CHIBA, Ryoko, FUJII, Akemi, HINO, Akihiro, MAITANI, Tamio

“…A histochemical assay for detecting genetically modified (GM) papaya (derived from Line 55-1) is described. GM papaya, currently undergoing a safety assessment…”
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Line 63-1: a new virus-resistant transgenic papaya by Tennant, P, Souza, M.T. Jr, Gonsalves, D, Fitch, M.M, Manshardt, R.M, Slightom, J.L

“…The disease resistance of a transgenic line expressing the coat protein (CP) gene of the mild strain of the papaya ringspot virus (PRSV) from Hawaii was…”
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組織化学的手法を用いた遺伝子組換えパパイヤ(55-1)検知法の確立 by 和久井, 千世子, 穐山, 浩, 渡邉, 敬浩, 内川, 誠司, 紀, 雅美, 高橋, 邦彦, 千葉, 良子, 藤井, 明美, 日野, 明寛, 米谷, 民雄

“…日本で安全性審査未終了である遺伝子組換え(GM)パパイヤ(55-1)の組織化学的定性検知法を確立した．GMパパイヤの胚に GM パパイヤに発現されているβ-glucuroni-dase (GUS)の基質であるX-Glucを含む反応液を添加し，37℃…”
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A histochemical method using a substrate of beta-glucuronidase for detection of genetically modified papaya by Wakui, C. (National Inst. of Hygienic Sciences, Tokyo (Japan)), Akiyama, H, Watanabe, T, Fitch, M.M.M, Uchikawa, S, Ki, M, Takahashi, K, Chiba, R, Fujii, A, Hino, A, Maitani, T

“…A histochemical assay for detecting genetically modified (GM) papaya (derived from Line 55-1) is described. GM papaya, currently undergoing a safety assessment…”
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Characterization of Insertion Sites in Rainbow Papaya, the First Commercialized Transgenic Fruit Crop by Suzuki, Jon Y., Tripathi, Savarni, Fermín, Gustavo A., Jan, Fuh-Jyh, Hou, Shaobin, Saw, Jimmy H., Ackerman, Christine M., Yu, Qingyi, Schatz, Michael C., Pitz, Karen Y., Yépes, Marcela, Fitch, Maureen M. M., Manshardt, Richard M., Slightom, Jerry L., Ferreira, Stephen A., Salzberg, Steven L., Alam, Maqsudul, Ming, Ray, Moore, Paul H., Gonsalves, Dennis

“…Inserts and insert sites in transgenic, papaya ringspot virus (PRSV)-resistant commercial papaya Rainbow and SunUp, were characterized as part of a petition to…”
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High frequency somatic embryogenesis and plant regeneration from papaya hypocotyl callus by Fitch, M.M.M. (Hawaii Univ., Honolulu, HI (USA). Dept. of Horticulture)

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Long-term culture of embryogenic sugarcane callus by Fitch, M.M.M. (United States Dept. of Agriculture, Aiea, HI (USA)), Moore, P.H

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Clonally propagated and seed-derived papaya orchards. I. Plant production and field growth by Fitch, M.M.M, Moore, P.H, Leong, T.C.W, Akashi, L.A.Y, Yeh, A.K.F, White, S.A, Dela Cruz, A.S, Santo, L.T, Ferreira, S.A, Poland, L.J

“…Papaya seedlings segregate for sex expression as females or hermaphrodites. Typically only hermaphrodite fruit are marketed in Hawaii. The agronomic practice…”
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Pathogen-derived resistance provides papaya with effective protection against papaya ringspot virus by Lius, S. (Hawaii Univ., Honolulu, HI (USA). Dept. of Horticulture), Manshardt, R.M, Fitch, M.M.M, Slightom, J.L, Sanford, J.C, Gonsalves, D

“…Transgenic Carica papaya plants (cv. Sunset, R0 clone 55-1) carrying the coat protein gene of papaya ringspot virus (strain HA 5-1) remained symptomless and…”
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Clonally propagated and seed-derived papaya orchards. II. Yield comparison by Fitch, M.M.M, Moore, P.H, Leong, T.C.W, Akashi, L.A.Y, Yeh, A.K.F, White, S.A, Dela Cruz, A.S, Santo, L.T, Ferreira, S.A, Poland, L.J

“…Gynodioecious papaya (Carica papaya L.) seedlings in commercial cropping systems in Hawaii are typically multiple-planted and thinned upon flowering to a…”
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