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“Correlation between protein 4.1R and the progression of heart failure in vivo”, vol. 15, p. -, 2016.
, “Correlation between protein 4.1R and the progression of heart failure in vivo”, vol. 15, p. -, 2016.
, “PI3K-Akt-mTOR signal inhibition affects expression of genes related to endoplasmic reticulum stress”, vol. 15, p. -, 2016.
, “PI3K-Akt-mTOR signal inhibition affects expression of genes related to endoplasmic reticulum stress”, vol. 15, p. -, 2016.
, , , “Conventional and contrast-enhanced ultrasound assessment of craniocerebral gunshot wounds”, vol. 14, pp. 3345-3354, 2015.
, “High expression of HIF-2α and its anti-radiotherapy effect in lung cancer stem cells”, vol. 14, pp. 18110-18120, 2015.
, “Lack of association between rare mutations of the SIAE gene and rheumatoid arthritis in a Han Chinese population”, vol. 14, pp. 14162-14168, 2015.
, “A novel frameshift deletion in the COL1A1 gene identified in a Chinese family with osteogenesis imperfecta”, vol. 14, pp. 15295-15300, 2015.
, “A rare PAX6 mutation in a Chinese family with congenital aniridia”, vol. 14, pp. 13328-13336, 2015.
, “Gene expression profile and enrichment pathways in different stages of bladder cancer”, vol. 12, pp. 1479-1489, 2013.
, “Lack of association of IL-2RA and IL-2RB polymorphisms with rheumatoid arthritis in a Han Chinese population”, vol. 12, pp. 581-586, 2013.
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http://dx.doi.org/10.1002/art.1780310302
PMid:3358796
Danoy P, Wei M, Johanna H, Jiang L, et al. (2011). Association of variants in MMEL1 and CTLA4 with rheumatoid arthritis in the Han Chinese population. Ann. Rheum. Dis. 70: 1793-1797.
http://dx.doi.org/10.1136/ard.2010.144576
PMid:21784728
Firestein GS (2003). Evolving concepts of rheumatoid arthritis. Nature 423: 356-361.
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PMid:12748655
Foster MW and Freeman WL (1998). Naming names in human genetic variation research. Genome Res. 8: 755-757.
PMid:9724320
Hardy J and Singleton A (2009). Genomewide association studies and human disease. N. Engl. J. Med. 360: 1759-1768.
http://dx.doi.org/10.1056/NEJMra0808700
PMid:19369657 PMCid:3422859
Hinks A, Ke X, Barton A, Eyre S, et al. (2009). Association of the IL2RA/CD25 gene with juvenile idiopathic arthritis. Arthritis Rheum. 60: 251-257.
http://dx.doi.org/10.1002/art.24187
PMid:19116909 PMCid:2963023
Isaacs JD (2010). The changing face of rheumatoid arthritis: sustained remission for all? Nat. Rev. Immunol. 10: 605-611.
http://dx.doi.org/10.1038/nri2804
PMid:20651747
Kochi Y, Suzuki A, Yamada R and Yamamoto K (2010). Ethnogenetic heterogeneity of rheumatoid arthritis-implications for pathogenesis. Nat. Rev. Rheumatol. 6: 290-295.
http://dx.doi.org/10.1038/nrrheum.2010.23
PMid:20234359
Kurreeman FA, Daha NA, Chang M, Catanese JJ, et al. (2009). Association of IL2RA and IL2RB with rheumatoid arthritis: a replication study in a Dutch population. Ann. Rheum. Dis. 68: 1789-1790.
http://dx.doi.org/10.1136/ard.2008.106393
PMid:19822714
Malek TR (2008). The biology of interleukin-2. Annu. Rev. Immunol. 26: 453-479.
http://dx.doi.org/10.1146/annurev.immunol.26.021607.090357
PMid:18062768
Mori M, Yamada R, Kobayashi K, Kawaida R, et al. (2005). Ethnic differences in allele frequency of autoimmune-disease-associated SNPs. J. Hum. Genet. 50: 264-266.
http://dx.doi.org/10.1007/s10038-005-0246-8
PMid:15883854
Morris JC and Waldmann TA (2000). Advances in interleukin 2 receptor targeted treatment. Ann. Rheum. Dis. 59 (Suppl 1): i109-i114.
http://dx.doi.org/10.1136/ard.59.suppl_1.i109
PMid:11053100 PMCid:1766615
Plenge RM (2009). Recent progress in rheumatoid arthritis genetics: one step towards improved patient care. Curr. Opin. Rheumatol. 21: 262-271.
http://dx.doi.org/10.1097/BOR.0b013e32832a2e2d
PMid:19365266
Silman AJ and Pearson JE (2002). Epidemiology and genetics of rheumatoid arthritis. Arthritis Res. 4 (Suppl 3): S265-S272.
http://dx.doi.org/10.1186/ar578
PMid:12110146 PMCid:3240153
Vella A, Cooper JD, Lowe CE, Walker N, et al. (2005). Localization of a type 1 diabetes locus in the IL2RA/CD25 region by use of tag single-nucleotide polymorphisms. Am. J. Hum. Genet. 76: 773-779.
http://dx.doi.org/10.1086/429843
PMid:15776395 PMCid:1199367
“Molecular cytogenetic identification of a wheat (Triticum aestivum)-American dune grass (Leymus mollis) translocation line resistant to stripe rust”, vol. 11, pp. 3198-3206, 2012.
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Afzal SN, Haque MI, Ahmedani MS, Rauf A, et al. (2008). Impact of stripe rust on kernel weight of wheat varieties sown in rainfed areas of Pakistan. Pak. J. Bot. 40: 923-929.
Bariana HS and McIntosh RA (1993). Cytogenetic studies in wheat. XV. Location of rust resistance genes in VPM1 and their genetic linkage with other disease resistance genes in chromosome 2A. Genome 36: 476-482.
http://dx.doi.org/10.1139/g93-065
PMid:18470001
Cao Z, Deng Z, Wang M, Wang X, et al. (2008). Inheritance and molecular mapping of an alien stripe-rust resistance gene from a wheat-Psathyrostachys huashanica translocation line. Plant Sci. 174: 544-549.
http://dx.doi.org/10.1016/j.plantsci.2008.02.007
Chen Q, Conner RL, Ahmad F, Laroche A, et al. (1998). Molecular characterization of the genome composition of partial amphiploids derived from Triticum aestivum × Thinopyrum ponticum and T. aestivum × Th. intermedium as sources of resistance to wheat streak mosaic virus and its vector, Aceria tosichella. Theor. Appl. Genet. 97: 1-8.
http://dx.doi.org/10.1007/s001220050860
Chen XM (2005). Epidemiology and control of stripe rust [Puccinia striiformis f. sp. tritici] on wheat. Can. J. Plant. Pathol. 27: 314-337.
http://dx.doi.org/10.1080/07060660509507230
Dreisigacker S (2004). Genetic Diversity in Elite Lines and Land Races of CIMMYT Spring Bread Wheat and Hybrid Performance of Crosses Among Elite Germplasm. Ph.D. thesis, Faculty of Agriculture, University of Hohenheim, Hohenheim.
Friebe B, Jiang J, Raupp WJ, McIntosh RA, et al. (1996). Characterization of wheat-alien translocations conferring resistance to diseases and pests: current status. Euphytica 91: 59-87.
http://dx.doi.org/10.1007/BF00035277
Fu J, Chen S and Zhang A (1993). Studies of the formation and cytogenetics of octoploid Tritileymus. Acta Genet. Sin. 20: 317-323.
Fu J, Chen S, Zhang A, Hou W, et al. (1996). Cytogenetic studies on the cross progenies between octoploid Tritileymus and Triticum aestivum. Acta Genet. Sin. 23: 24-31.
Fu J, Xu X, Yang Q, Chen S, et al. (1997). Cytogenetic studies on the cross between octoploid Tritileymus and nulllisomic wheat. Acta Genet. Sin. 24: 350-357.
He R, Chang Z, Yang Z, Yuan Z, et al. (2009). Inheritance and mapping of powdery mildew resistance gene Pm43 introgressed from Thinopyrum intermedium into wheat. Theor. Appl. Genet. 118: 1173-1180.
http://dx.doi.org/10.1007/s00122-009-0971-z
PMid:19214392
Hu LJ, Li GR, Zeng ZX, Chang ZJ, et al. (2011). Molecular cytogenetic identification of a new wheat-Thinopyrum substitution line with stripe rust resistance. Euphytica 177: 169-177.
http://dx.doi.org/10.1007/s10681-010-0216-x
Jiang J, Friebe B and Gill BS (1994). Recent advances in alien gene transfer in wheat. Euphytica 73: 199-212.
http://dx.doi.org/10.1007/BF00036700
Kang Z, Zhao J, Han D, Zhang H et al. (2010). Status of wheat rust research and control in China. Available at [http:// www.globalrust.org/db/attachments/bgriiwc/24/2/07-kang-ca-A4-embargo.pdf].
Kishii M, Wang RR and Tsujimoto H (2003). Characteristics and behaviour of the chromosomes of Leymus mollis and L. racemosus (Triticeae, Poaceae) during mitosis and meiosis. Chromosome Res 11: 741-748.
http://dx.doi.org/10.1023/B:CHRO.0000005774.00726.71
PMid:14712860
Kuraparthy V, Chhuneja P, Dhaliwal HS, Kaur S, et al. (2007a). Characterization and mapping of cryptic alien introgression from Aegilops geniculata with new leaf rust and stripe rust resistance genes Lr57 and Yr40 in wheat. Theor. Appl. Genet. 114: 1379-1389.
http://dx.doi.org/10.1007/s00122-007-0524-2
PMid:17356867
Kuraparthy V, Sood S, Chhuneja P, Dhaliwal HS, et al. (2007b). A cryptic wheat-Aegilops triuncialis translocation with leaf rust resistance gene Lr58. Crop Sci. 47: 1995-2003.
http://dx.doi.org/10.2135/cropsci2007.01.0038
Li Q, Chen XM, Wang MN and Jing JX (2011). Yr45, a new wheat gene for stripe rust resistance on the long arm of chromosome 3D. Theor. Appl. Genet. 122: 189-197.
http://dx.doi.org/10.1007/s00122-010-1435-1
PMid:20838759
Luo PG, Luo HY, Chang ZJ, Zhang HY, et al. (2009). Characterization and chromosomal location of Pm40 in common wheat: a new gene for resistance to powdery mildew derived from Elytrigia intermedium. Theor. Appl. Genet. 118: 1059-1064.
http://dx.doi.org/10.1007/s00122-009-0962-0
PMid:19194691
Nasuda S, Friebe B, Busch W, Kynast RG, et al. (1998). Structural rearrangement in chromosome 2M of Aegilops comosa has prevented the utilization of the compair and related wheat-Ae. comosa translocations in wheat improvement. Theor. Appl. Genet. 96: 780-785.
http://dx.doi.org/10.1007/s001220050802
Singh RP, Nelson JC and Sorrells ME (2000). Mapping Yr28 and other genes for resistance to stripe rust in wheat. Crop Sci. 40: 1148-1155.
http://dx.doi.org/10.2135/cropsci2000.4041148x
Sui XX, Wang MN and Chen XM (2009). Molecular mapping of a stripe rust resistance gene in spring wheat cultivar Zak. Phytopathology 99: 1209-1215.
http://dx.doi.org/10.1094/PHYTO-99-10-1209
PMid:19740035
Wan AM, Chen XM and He ZH (2007). Wheat stripe rust in China. Aust. J. Agr. Res. 58: 605-619.
http://dx.doi.org/10.1071/AR06142
Wang XP, Fu J, Zhang XQ, Jing JK, et al. (2000). Molecular cytogenetic study on genome constitutions of octoploid Tritileymus. Acta Bot. Sin. 42: 582-586.
Yu JK, Dake TM, Singh S, Benscher D, et al. (2004). Development and mapping of EST-derived simple sequence repeat markers for hexaploid wheat. Genome 47: 805-818.
http://dx.doi.org/10.1139/g04-057
PMid:15499395
Zhang P, McIntosh RA, Hoxha S and Dong C (2009). Wheat stripe rust resistance genes Yr5 and Yr7 are allelic. Theor. Appl. Genet. 120: 25-29.
http://dx.doi.org/10.1007/s00122-009-1156-5
PMid:19763533
Zhou YC, Zhang XQ, Wang XP, Wu LR, et al. (2001). Chromosomal location and molecular marker of resistance gene to Puccinia striiformis west. in Leymus mollis Trin. Hara. Yi Chuan Xue Bao 28: 864-869.
PMid:11582747
“RNA-binding motif protein RBM22 is required for normal development of zebrafish embryos”, vol. 8, pp. 1466-1473, 2009.
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