Ying K

References (4)

Title : The B73 maize genome: complexity, diversity, and dynamics - Schnable_2009_Science_326_1112
Author(s) : Schnable PS , Ware D , Fulton RS , Stein JC , Wei F , Pasternak S , Liang C , Zhang J , Fulton L , Graves TA , Minx P , Reily AD , Courtney L , Kruchowski SS , Tomlinson C , Strong C , Delehaunty K , Fronick C , Courtney B , Rock SM , Belter E , Du F , Kim K , Abbott RM , Cotton M , Levy A , Marchetto P , Ochoa K , Jackson SM , Gillam B , Chen W , Yan L , Higginbotham J , Cardenas M , Waligorski J , Applebaum E , Phelps L , Falcone J , Kanchi K , Thane T , Scimone A , Thane N , Henke J , Wang T , Ruppert J , Shah N , Rotter K , Hodges J , Ingenthron E , Cordes M , Kohlberg S , Sgro J , Delgado B , Mead K , Chinwalla A , Leonard S , Crouse K , Collura K , Kudrna D , Currie J , He R , Angelova A , Rajasekar S , Mueller T , Lomeli R , Scara G , Ko A , Delaney K , Wissotski M , Lopez G , Campos D , Braidotti M , Ashley E , Golser W , Kim H , Lee S , Lin J , Dujmic Z , Kim W , Talag J , Zuccolo A , Fan C , Sebastian A , Kramer M , Spiegel L , Nascimento L , Zutavern T , Miller B , Ambroise C , Muller S , Spooner W , Narechania A , Ren L , Wei S , Kumari S , Faga B , Levy MJ , McMahan L , Van Buren P , Vaughn MW , Ying K , Yeh CT , Emrich SJ , Jia Y , Kalyanaraman A , Hsia AP , Barbazuk WB , Baucom RS , Brutnell TP , Carpita NC , Chaparro C , Chia JM , Deragon JM , Estill JC , Fu Y , Jeddeloh JA , Han Y , Lee H , Li P , Lisch DR , Liu S , Liu Z , Nagel DH , McCann MC , SanMiguel P , Myers AM , Nettleton D , Nguyen J , Penning BW , Ponnala L , Schneider KL , Schwartz DC , Sharma A , Soderlund C , Springer NM , Sun Q , Wang H , Waterman M , Westerman R , Wolfgruber TK , Yang L , Yu Y , Zhang L , Zhou S , Zhu Q , Bennetzen JL , Dawe RK , Jiang J , Jiang N , Presting GG , Wessler SR , Aluru S , Martienssen RA , Clifton SW , McCombie WR , Wing RA , Wilson RK
Ref : Science , 326 :1112 , 2009
Abstract : We report an improved draft nucleotide sequence of the 2.3-gigabase genome of maize, an important crop plant and model for biological research. Over 32,000 genes were predicted, of which 99.8% were placed on reference chromosomes. Nearly 85% of the genome is composed of hundreds of families of transposable elements, dispersed nonuniformly across the genome. These were responsible for the capture and amplification of numerous gene fragments and affect the composition, sizes, and positions of centromeres. We also report on the correlation of methylation-poor regions with Mu transposon insertions and recombination, and copy number variants with insertions and/or deletions, as well as how uneven gene losses between duplicated regions were involved in returning an ancient allotetraploid to a genetically diploid state. These analyses inform and set the stage for further investigations to improve our understanding of the domestication and agricultural improvements of maize.
ESTHER : Schnable_2009_Science_326_1112
PubMedSearch : Schnable_2009_Science_326_1112
PubMedID: 19965430
Gene_locus related to this paper: maize-b4ffc7 , maize-b6u7e1 , maize-c0pcy5 , maize-c0pgf7 , maize-c0pgw1 , maize-c0pfl3 , maize-b4fpr7 , maize-k7vy73 , maize-a0a096swr3 , maize-k7v3i9 , maize-b6u9v9 , maize-a0a3l6e780 , maize-b4fv80 , maize-a0a1d6nse2 , maize-c4j9a1 , maize-k7uba1

Title : Sequence and analysis of rice chromosome 4 - Feng_2002_Nature_420_316
Author(s) : Feng Q , Zhang Y , Hao P , Wang S , Fu G , Huang Y , Li Y , Zhu J , Liu Y , Hu X , Jia P , Zhao Q , Ying K , Yu S , Tang Y , Weng Q , Zhang L , Lu Y , Mu J , Zhang LS , Yu Z , Fan D , Liu X , Lu T , Li C , Wu Y , Sun T , Lei H , Li T , Hu H , Guan J , Wu M , Zhang R , Zhou B , Chen Z , Chen L , Jin Z , Wang R , Yin H , Cai Z , Ren S , Lv G , Gu W , Zhu G , Tu Y , Jia J , Chen J , Kang H , Chen X , Shao C , Sun Y , Hu Q , Zhang X , Zhang W , Wang L , Ding C , Sheng H , Gu J , Chen S , Ni L , Zhu F , Chen W , Lan L , Lai Y , Cheng Z , Gu M , Jiang J , Li J , Hong G , Xue Y , Han B
Ref : Nature , 420 :316 , 2002
Abstract : Rice is the principal food for over half of the population of the world. With its genome size of 430 megabase pairs (Mb), the cultivated rice species Oryza sativa is a model plant for genome research. Here we report the sequence analysis of chromosome 4 of O. sativa, one of the first two rice chromosomes to be sequenced completely. The finished sequence spans 34.6 Mb and represents 97.3% of the chromosome. In addition, we report the longest known sequence for a plant centromere, a completely sequenced contig of 1.16 Mb corresponding to the centromeric region of chromosome 4. We predict 4,658 protein coding genes and 70 transfer RNA genes. A total of 1,681 predicted genes match available unique rice expressed sequence tags. Transposable elements have a pronounced bias towards the euchromatic regions, indicating a close correlation of their distributions to genes along the chromosome. Comparative genome analysis between cultivated rice subspecies shows that there is an overall syntenic relationship between the chromosomes and divergence at the level of single-nucleotide polymorphisms and insertions and deletions. By contrast, there is little conservation in gene order between rice and Arabidopsis.
ESTHER : Feng_2002_Nature_420_316
PubMedSearch : Feng_2002_Nature_420_316
PubMedID: 12447439
Gene_locus related to this paper: orysa-Q7XTC5 , orysa-Q7F959 , orysa-q7f9i3 , orysa-q7x7y5 , orysa-q7xkj9 , orysa-q7xr62 , orysa-q7xr63 , orysa-q7xr64 , orysa-q7xsg1 , orysa-q7xsq2 , orysa-Q7XTM8 , orysa-q7xts6 , orysa-q7xue7 , orysa-q7xv53 , orysa-Q7XVB5 , orysa-Q7XVG5 , orysj-q0jaf0 , orysj-q7f8x1

Title : Cloning and expression of a novel retinoblastoma binding protein cDNA, RBBP10 - Chen_2002_Biochem.Genet_40_273
Author(s) : Chen JZ , Yang QS , Wang S , Meng XF , Ying K , Xie Y , Ma YM
Ref : Biochemical Genetics , 40 :273 , 2002
Abstract : A 2860-bp cDNA was isolated from a human fetal brain cDNA library by high throughput cDNA sequencing, which encodes a putative protein with 186 amino acids. The putative protein shares 90.7% identity with rat pBOG (3403163) and shares 93.4% identity with human RBBP9 (NP_006597.1). A conserved RB binding domain, L x C x E, located between residue 63 and 68 was recognized. Therefore, it was named RBBP10. Mapviewer analysis locates it on human chromosome 20q11.22. RBBP10 spans about 9.6 kb of the genome and consists of six exons and five introns. RT-PCR revealed that the gene was expressed widely in various human tissues, and the expression level is somewhat higher in tumor tissues than in normal tissues. But subsequent sequencing analysis did notfound any mutation of this in tumor tissues. The COS 7 cell transfected with the ORF of RBBP10 showed that the protein was distributed both in the cytoplasm and in the nucleus. Our results suggest that RBBP10 is the orthologue of the rat BOG gene (AF025819) and a paralogue of human RBBP9 (AF039564).
ESTHER : Chen_2002_Biochem.Genet_40_273
PubMedSearch : Chen_2002_Biochem.Genet_40_273
PubMedID: 12296629
Gene_locus related to this paper: human-RBBP9

Title : Cloning and expression pattern of the human NDRG3 gene - Zhao_2001_Biochim.Biophys.Acta_1519_134
Author(s) : Zhao W , Tang R , Huang Y , Wang W , Zhou Z , Gu S , Dai J , Ying K , Xie Y , Mao Y
Ref : Biochimica & Biophysica Acta , 1519 :134 , 2001
Abstract : We report the cloning and expression pattern of a novel N-myc downstream-regulated gene 3 (NDRG3), located on human chromosome 20q11.21-11.23. The NDRG3 cDNA is 2588 base pair in length, encoding a 363 amino acid polypeptide highly related to mouse Ndr3 protein. Northern blot reveals that NDRG3 is highly expressed in testis, prostate and ovary. By in situ hybridization, the NDRG3 mRNA was localized to the outer layers of seminiferous epithelium, indicating that it may play a role in spermatogenesis.
ESTHER : Zhao_2001_Biochim.Biophys.Acta_1519_134
PubMedSearch : Zhao_2001_Biochim.Biophys.Acta_1519_134
PubMedID: 11406283