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Soybean ( Glycine max L.) Kunitz trypsin inhibitor (KTI) protein is an antinutritional factor. The

objective of this research was to confirm a SSR marker tightly linked to the Ti locus in four different

F5 populations. Four female parents ( Glycine max L. cv. Jinpumkong2, Hannamkong, GS06,

20M183) of TiTi (KTI protein present) genotype and one male parent C242 of titi (KTI protein

absent) genotype were used. Four different populations of F2 plants free of KTI protein were

advanced to the F5 generation. Satt228 marker analysis showed the four female parents had the

allele 1 (AA genotype) while the C242 male parent has the allele 2 (BB genotype). In seed, four

parents had KTI protein and C242 had not KTI protein of 21.5 kDa. A total of 391 F5 plants derived

from the four crosses (273 plants from Jinpunkong2 ?C242, 17 plants from Hannamkong ?C242,

45 plants from GS06 ?C242, and 56 plants from 20M183 ?C242) all have the allele 2 (BB genotype)

for Satt228 marker. The 391 individual F6 seeds harvested from same individual F5 plants are also

absent of the KTI protein. Complete cosegregation between the Satt228 marker allele and the Ti

locus was observed in these four different populations.

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Polymorphisms of the NOS1, NOS3, and TGFβ genes, in a Korean population with asthma Mi-Young Jo ;Dong-Hee Kim ;Sung-Soo Jung ;Gwang-Sook Ahn pp.283-289

Analysis of 5.8S rDNA and internal transcribed spacer 1 (ITS1) sequences of ascaridoid nematodes :phylogenetic signal and hypothesis testing Agnieszka Kijewska ;Aleksandra Czarna ;Mercedes Fernández ;Krzysztof Zdzitowiecki ;Jerzy Rokicki ;B pp.291-306

Presence of several tRNA-like sequences in the mitochondrial genome of the bumblebee, Bombus hypocrita sapporoensis (Hymenoptera: Apidae) Mee Yeon Hong ;So Young Cha ;Dong Young Kim ;Hyung Joo Yoon ;Seong Ryul Kim ;Jae Sam Hwang ;Ki-Gyoun pp.307-318

Enhanced tolerance against osmotic stresses of Escherichia coli cells expressing soybean KS-type dehydrin Eunsook Chung ;Chang-Woo Cho ;Kee-Young Kim ;Kyoungmi Kim ;Hyun-Ah So ;Seon-Woo Lee ;Young-Choon Lee pp.319-327

Confirmation of Satt228 marker tightly linked to the Ti locus in four different soybean populations Myung Sik Kim ;Moo Ryong Huh ;Woo Hyeun Jeong ;Mo Se Park ;Kyoung Ja Lee ;Sang In Shim ;Min Chul Kim pp.329-336

Time-related mapping of quantitative trait loci controlling dry matter accumulation and partitioning in rice Shao-Bo Li ;Zhi-Hong Zhang ;Shao-Qing Li ;Yang-Sheng Li ;You-Lin Zhu ;Ying-Guo Zhu pp.337-346

New evidence for the involvement of the EGF receptor pathway in hair follicle morphogenesis in uncv mice Jing Zhang ;Xiaokun Teng ;Lizhen Si ;Pingtong Zhou ;Xiangyin Kong ;Landian Hu pp.347-353

hnRNP E1 interacts with hnRNP L Mieyoung Choi pp.355-363

Application of two complementary molecular sexing methods for East Asian bird species Mu-Yeong Lee ;Yoon-Jee Hong ;Sun-Kyung Park ;Young-Jun Kim ;Tae-Young Choi ;Hang Lee ;Mi-Sook Min pp.365-372

QTL mapping of kernel oil content of chromosome 6 in a high oil maize mutant (Zea mays L.) Han Jing ;Wang Hongwu ;Chen Shaojiang pp.373-382

A case of a Taiwanese patient with cleidocranial dysplasia possessing a de novo mutation of RUNX2 gene Pen-Hua Su ;Jia-Yuh Chen ;Ju-Shan Yu ;Suh-Jen Chen ;Teng-Fu Tsao ;Shih-Jei Tsai pp.383-388

Dexamethasone interferes with the chondrogenic differentiation and upregulates the expression of genes in integrin and notch signaling pathways Kyoung-Jin Park ;Yong-Min Kim ;Eui-Sung Choi ;Anandharaj Arunkumar ;Hye-Ryun Kim ;Seung-Ryul Kim ;Su pp.389-398

Vitamin D3 and dexamethasone induce type Ⅰ regulatory T cells that confer their immunosuppressive functions via IL10 and CTLA4 molecules Daesun Yun ;Mia Gi ;Seokmann Hong pp.399-405

Identification of differentially expressed genes related to NF1-associated malignant transformation from a patient with neurofibromatosis type 1 Seon-Yong Jeong ;Jae-Ho Han ;Yong-Yea Park ;Hyon J. Kim pp.407-418

Heterogeneous nuclear ribonucleoprotein D-like protein JKTBP interacts with heterogeneous nuclear ribonucleoprotein K Ji-Young Yoon ;Mieyoung Choi pp.419-426

참고문헌 (27건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Bajpai S, Sharma A and Gupta MN (2005) Removal and recovery of antinutritional factors from soybean flour. Food Chemistry 89: 497-501. 미소장
2 Birk Y (1961) Purification and some properties of a highly active inhibitor of trypsin and chymotrypsin from soybeans. Biochem. Biophys. Acta 54: 378-381. 미소장
3 Bouchez AF, Hospital M, Causse A, Gallais and Charcosset A (2002) Marker assisted introgression of favorable alleles at quantitative trait loci between maize elite lines. Genetics 162: 1945-1959. 미소장
4 Charmet G, Robert N, Perretant MR, Gay G, Sourdille P, Groos C, Bernard S and Bernard M (1999) Marker-assisted recurrent selection for cumulating additive and interactive QTLs in recombinant inbred lines. Theor. Appl. Genet. 99: 1143-1148. 미소장
5 Cregan PB, Jarvik T, Bush AL, Shoemaker RC, Lark KG, Kahler AL, Kaya N, VanToai TT, Lohnes DG, Chung JI and Specht JE (1999) An integrated genetic linkage map of the soybean genome. Crop Sci. 39: 1464-1490. 미소장
6 Frattali V and Steiner RF (1968) Soybean inhibitor. I. Separations and some properties of three inhibitors from commercial crude soybean trypsin inhibitors. Biochem. 7: 521-530. 미소장
7 Hildebrand DF, Orf JH and Hymowitz T (1980) Inheritance of an acid phosphatase and its linkage with the Kunitz trypsin inhibitor in seed protein of soybeans. Crop Sci. 20: 83-85. 미소장
8 Hospital F, Goldringer I and Openshaw S (2000) Efficient marker-based recurrent selection for multiple quantitative trait loci. Genetical Research 75: 357-368. 미소장
9 Hymowitz T and Hadley HH (1972) Inheritance of a trypsin inhibitor variant in seed protein of soybeans. Crop Sci. 12: 197-198. 미소장
10 Kiang YT (1987) Mapping three protein loci on a soybean chromosome. Crop Sci. 27: 44-46. 미소장
11 Kim MS, Park MJ, Hwang JM, Jo SH, Ko MS and Chung JI (2004) Identification of molecular markers linked to Ti locus in soybean. Korean J. Crop Sci. 49: 419-422. 미소장
12 Kim MS, Park MJ, Jeong WH, Nam KC and Chung JI (2006) SSR marker tightly linked to the Ti locus in soybean [Glycine max (L.) Merr.]. Euphytica 152: 361-366 미소장
13 Kunitz M (1945) Crystallization of a soybean trypsin inhibitor from soybean. Science 101:668-669. 미소장
14 Liu K (2000) Expanding soybean food utilization. Food Technology 54: 46-58. 미소장
15 Liencer IE (1995) Possible adverse effects of soybean anticarcinogens. Journal of Nutrition 125: 744-750. 미소장
16 Moraes R, Soares T, Colombo L, Salla M, Barros J, Piovesan N, Barros E and Moreira M (2006) Assisted selection by specific DNA markers for genetic elimination of the kunitz trypsin inhibitor and lectin in soybean seeds. Euphytica 149: 221-226. 미소장
17 Oliveira MIP, Piovesan ND, Jose IC, Barros EG, Moreira MA and Oliveira LO (2007) Protein, oil, and isoflavone contents in lipoxygenase and Kunitz trypsin inhibitor deficient soybean seeds. Chromatographia 66: 521-527. 미소장
18 Orf JH and Hymowitz T (1979) Inheritance of the absence of the Kunitz trypsin inhibitor in seed protein of soybeans. Crop Sci. 19: 107-109. 미소장
19 Palacios M, Easter RA, Soltwedel KT, Parsons CM, Douglas MW and Hymowitz T (2004) Effect of soybean variety and processing on growth performance of young chicks and pigs. Journal of Animal Science 82: 1108-1114. 미소장
20 Rackis JJ, Sasame HA, Mann RR, Anderson RL and Smith AK (1962) Soybean trypsin inhibitors: Isolation, purification and physical properties. Arch. Biochem. Biophys. 98: 471-478. 미소장
21 Ribaut JM and Hoisington DA (1998) Marker assisted selection: New tools and strategies. Trends Plant Sci. 3: 236-239. 미소장
22 Saghai MA, Soliman KM, Jorgensen RA and Allard RW (1984) Ribosomal DNA spacer-length polymorphisms in barley: Mendelian inheritance, chromosomal location and population dynamics. Proc. Natl. Acad. Sci. 81: 8014-8018. 미소장
23 Singh L, Wilson CM and Hadley HH (1969) Genetic differences in soybean trypsin inhibitors separated by disc electrophoresis. Crop Sci. 9: 489-491. 미소장
24 Stromberg LD, Dudley JW and Rufener GK (1994) Comparing conventional early generation selection with molecular marker assisted selection in maize. Crop Sci. 34: 1221-1225. 미소장
25 Vasconcelos IM, Maia AAB, Siebra EA, Oliveira JTA, Carvalho AFFU and Melo VMM (2001) Nutritional study of two Brazilian soybean cultivars differing in the contents of antinutritional and toxic proteins. Journal of Nutritional Biochemistry 12: 55-62. 미소장
26 Westfall RL and Hauge SM (1948) The nutritive quality and the trypsin inhibitor content of soybean flour heated at various temperatures. J. Nutr. 35: 379-389. 미소장
27 Young ND (1999) A cautiously optimistic vision for marker assisted breeding. Mol. Breed. 5: 505-510. 미소장

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