| P2093 | author name string | Yu Zhang | |
| | Jianbo Wang | |
| | Yi Gao | |
| | Hong Xu | |
| | Wenlan Li | |
| P2860 | cites work | A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 |
| | A comparative analysis of embryo and endosperm proteome from seeds of Jatropha curcas | Q84505325 |
| | Quantitative proteomics of seed filling in castor: comparison with soybean and rapeseed reveals differences between photosynthetic and nonphotosynthetic seed metabolism | Q43292851 |
| | Molecular characterization of a senescence-associated gene encoding cysteine proteinase and its gene expression during leaf senescence in sweet potato. | Q44159208 |
| | A flux model of glycolysis and the oxidative pentosephosphate pathway in developing Brassica napus embryos | Q44448834 |
| | The S8 serine, C1A cysteine and A1 aspartic protease families in Arabidopsis | Q44707295 |
| | Microarray analysis of chromatin-immunoprecipitated DNA identifies specific regions of tobacco genes associated with acetylated histones | Q44783555 |
| | Characterization of an immunoglobulin binding protein homolog in the maize floury-2 endosperm mutant. | Q44857631 |
| | The interconversion of UDP-arabinopyranose and UDP-arabinofuranose is indispensable for plant development in Arabidopsis. | Q46006895 |
| | Embryogenesis in Higher Plants: An Overview | Q46084494 |
| | Analysis of embryonic proteome modulation by GA and ABA from germinating rice seeds | Q46441089 |
| | In-depth investigation of the soybean seed-filling proteome and comparison with a parallel study of rapeseed | Q46503133 |
| | Deciphering gene regulatory networks that control seed development and maturation in Arabidopsis. | Q46598404 |
| | Distribution of napin and cruciferin in developing rape seed embryos | Q47917844 |
| | Developmental analysis of maize endosperm proteome suggests a pivotal role for pyruvate orthophosphate dikinase | Q51996567 |
| | Plant embryogenesis: zygote to seed | Q81063934 |
| | Correlation between protein and mRNA abundance in yeast | Q28137554 |
| | Proteomic analysis of arabidopsis seed germination and priming | Q28366692 |
| | Microarray analysis of developing Arabidopsis seeds | Q30633765 |
| | Proteomics of Medicago truncatula seed development establishes the time frame of diverse metabolic processes related to reserve accumulation | Q30981737 |
| | Gene expression at early stages of Brassica napus seed development as revealed by transcript profiling of seed-abundant cDNAs | Q31016199 |
| | Physical and functional interaction of the Arabidopsis K(+) channel AKT2 and phosphatase AtPP2CA. | Q31063370 |
| | Proteomic analysis of seed filling in Brassica napus. Developmental characterization of metabolic isozymes using high-resolution two-dimensional gel electrophoresis | Q33236834 |
| | Transcriptional profiling of the Arabidopsis embryo | Q33267621 |
| | Proteomic analysis of tomato (Lycopersicon esculentum) pollen | Q33301886 |
| | Apical-basal pattern formation in Arabidopsis embryogenesis | Q33335744 |
| | Dynamic proteomic analysis reveals a switch between central carbon metabolism and alcoholic fermentation in rice filling grains | Q33364365 |
| | The proteome of seed development in the model legume Lotus japonicus. | Q33398302 |
| | Developing rice embryo proteomics reveals essential role for embryonic proteins in regulation of seed germination | Q33453737 |
| | Signaling in plant embryogenesis | Q33536596 |
| | Ovule and embryo development, apomixis and fertilization | Q33538743 |
| | Identification of Changes in Wheat (Triticum aestivum L.) Seeds Proteome in Response to Anti–trx s Gene | Q33979776 |
| | Ubiquitination in plant immunity. | Q34115493 |
| | Transcriptomic Analysis of Rice (Oryza sativa) Developing Embryos Using the RNA-Seq Technique | Q34162578 |
| | Genome-Wide Analysis of the Complex Transcriptional Networks of Rice Developing Seeds | Q34170498 |
| | Blue silver: a very sensitive colloidal Coomassie G-250 staining for proteome analysis | Q34324172 |
| | Control of early seed development | Q34425211 |
| | Respiratory metabolism: glycolysis, the TCA cycle and mitochondrial electron transport | Q34547718 |
| | Proteome and proteomics: New technologies, new concepts, and new words | Q34752561 |
| | THE ORGANIZATION AND REGULATION OF PLANT GLYCOLYSIS. | Q35687256 |
| | Protein quality control mechanisms and protein storage in the endoplasmic reticulum. A conflict of interests? | Q35948428 |
| | Proteomic dissection of plant development | Q36512325 |
| | Advances in plant proteomics | Q36593388 |
| | The ubiquitin-26S proteasome system at the nexus of plant biology | Q37474364 |
| | Seed proteomics | Q37822523 |
| | Comparative proteomics of seed maturation in oilseeds reveals differences in intermediary metabolism | Q37853960 |
| | Proteomic analysis of wheat embryos with 2-DE and liquid-phase chromatography (ProteomeLab PF-2D)--a wider perspective of the proteome | Q39094972 |
| | AKT2/3 subunits render guard cell K+ channels Ca2+ sensitive | Q40436416 |
| | Pattern formation in plant embryogenesis: A reassessment | Q42455624 |
| | Phylogenetic analyses identify 10 classes of the protein disulfide isomerase family in plants, including single-domain protein disulfide isomerase-related proteins | Q42473743 |
| | Proteome analysis of pod and seed development in the model legume Lotus japonicus | Q42911098 |
| | Systems analysis of seed filling in Arabidopsis: using general linear modeling to assess concordance of transcript and protein expression | Q43179418 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | proteomics | Q471857 |
| P304 | page(s) | e50290 | |
| P577 | publication date | 2012-11-26 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | A Proteomic Analysis of Seed Development in Brassica campestri L | |
| P478 | volume | 7 | |