| 1.
Capturing RNA-protein Interaction via CRUIS
[2575]
|
| 2.
IMP/GTP balance modulates cytoophidium assembly and IMPDH activity
[1468]
|
| 3.
ASNS disruption shortens CTPS cytoophidia in Saccharomyces cerevis..
[1330]
|
| 4.
Forming cytoophidia prolongs the half-life of CTP synthase
[1324]
|
| 5.
mTOR-S6K1 pathway mediates cytoophidium assembly
[1276]
|
| 6.
Temperature-sensitive cytoophidium assembly in Schizosaccharomyces..
[1170]
|
| 7.
Combined Inactivation of CTPS1 and ATR Is Synthetically Lethal to ..
[1109]
|
| 8.
CRISPR - A Machine-Generated Literature
[1016]
|
| 9.
Structural basis for ligand binding modes of CTP synthase
[1012]
|
| 10.
The TOR pathway modulates cytoophidium formation in Schizosaccharo..
[938]
|
| 11.
Survival Motor Neuron Protein Participates in Mouse Germ Cell Deve..
[929]
|
| 12.
Effects of Survival Motor Neuron Protein on Germ Cell Development ..
[925]
|
| 13.
Probing the Function of Metazoan Histones with a Systematic Librar..
[867]
|
| 14.
Filamentation of asparagine synthetase in Saccharomyces cerevisiae
[863]
|
| 15.
Highly effective proximate labeling in Drosophila
[824]
|
| 16.
Super-Resolution Imaging Reveals Dynamic Reticular Cytoophidia
[821]
|
| 17.
CTP synthase forms the cytoophidium in human hepatocellular carcin..
[801]
|
| 18.
Histidine-Dependent Protein Methylation Is Required for Compartmen..
[794]
|
| 19.
Active transport of cytoophidia in Schizosaccharomyces pombe
[780]
|
| 20.
Cytoophidium-forming proteins in Schizosaccharomyces pombe
[760]
|
| 21.
The Cytoophidium and Its Kind: Filamentation and Compartmentation ..
[746]
|
| 22.
The proline synthesis enzyme P5CS forms cytoophidia in Drosophila
[740]
|
| 23.
Critical roles of CTP synthase N-terminal in cytoophidium assembly
[735]
|
| 24.
Sparks of the CRISPR explosion: Applications in medicine and agric..
[713]
|
| 25.
Interfilament interaction between IMPDH and CTPS cytoophidia
[712]
|
| 26.
A New Method for Studying RNA-binding Proteins on Specific RNAs
[652]
|
| 27.
Cytoophidia coupling adipose architecture and metabolism
[646]
|
| 28.
Cytoophidia Maintain the Integrity of Drosophila Follicle Epitheli..
[640]
|
| 29.
Drosophila CTP synthase can form distinct substrate- and product-b..
[635]
|
| 30.
IMPDH forms the cytoophidium in zebrafish
[635]
|
| 31.
CTPS forms the cytoophidium in zebrafish
[632]
|
| 32.
GTP-Dependent Regulation of CTP Synthase: Evolving Insights into A..
[613]
|
| 33.
Filamentation modulates allosteric regulation of PRPS
[600]
|
| 34.
Differential Histone Distribution Patterns in Induced Asymmetrical..
[597]
|
| 35.
Hypoosmolality impedes cytoophidium integrity during nitrogen star..
[597]
|
| 36.
Connecting Ras and CTP synthase in Drosophila
[591]
|
| 37.
COMPOSITIONS AND METHODS FOR DETECTING NUCLEIC ACID-PROTEIN INTERA..
[591]
|
| 38.
CTP synthase forms cytoophidia in archaea
[588]
|
| 39.
Histone transcription regulator Slm9 is required for cytoophidium ..
[581]
|
| 40.
Drosophila intestinal homeostasis requires CTP synthase
[572]
|
| 41.
Cold shock induces novel nuclear bodies in Xenopus oocytes
[569]
|
| 42.
The atlas of cytoophidia in Drosophila larvae
[568]
|
| 43.
Cytoophidia safeguard binucleation of Drosophila male accessory gl..
[567]
|
| 44.
Polarised maintenance of cytoophidia in Drosophila follicle epithe..
[564]
|
| 45.
Structural basis of dynamic P5CS filaments
[561]
|
| 46.
CTPS and IMPDH form cytoophidia in developmental thymocytes
[556]
|
| 47.
Inosine 5 '-Monophosphate Dehydrogenase Cytoophidia Neighbor Insul..
[552]
|
| 48.
The IMPDH cytoophidium couples metabolism and fetal development in..
[538]
|
| 49.
Effect on cell survival and cytoophidium assembly of the adRP-10-r..
[531]
|
| 50.
Molecular crowding facilitates bundling of IMPDH polymers and cyto..
[522]
|
| 51.
Structural basis of human PRPS2 filaments
[522]
|
| 52.
抑制剂组合及其在制备治疗MYC高表达癌症的药物中的应用
[515]
|
| 53.
Long-Term Imaging and Dynamic Analysis of Cytoophidia in Yeast
[507]
|
| 54.
CTP synthase does not form cytoophidia in Drosophila interfollicul..
[506]
|
| 55.
Structural basis for activation of glutaminase
[498]
|
| 56.
Ubiquitination regulates cytoophidium assembly in Schizosaccharomy..
[496]
|
| 57.
奥密克戎的挑战
[496]
|
| 58.
Cytoophidia and filaments: you must unlearn what you have learned
[495]
|
| 59.
What can asymmetrical cell snakes do?
[491]
|
| 60.
STAMP: Spatio-Temporal Association Mapping of Proteins
[491]
|
| 61.
新冠病毒超级突变株:奥密克戎
[479]
|
| 62.
基因魔剪:改写生命密码新工具
[474]
|
| 63.
Cytoophidia influence cell cycle and size in Schizosacchar..
[474]
|
| 64.
基于文献计量的CRISPR研究进展分析
[472]
|
| 65.
Dynamic Arabidopsis P5CS filament facilitates substrate cha..
[467]
|
| 66.
Survival Motor Neuron Enhances Pluripotent Gene Expression and Fac..
[464]
|
| 67.
细胞蛇
[441]
|
| 68.
细胞蛇:细胞器家族的新成员
[438]
|
| 69.
Cytoophidia respond to nutrient stress in Drosophila
[436]
|
| 70.
Super-resolution imaging reveals dynamic skeletal cytoophidia
[422]
|
| 71.
Motor defects in a Drosophila model for spinal muscular atrophy re..
[420]
|
| 72.
Genomic Tagging of AGO1 Using CRISPR/Cas9-Mediated Homologous Reco..
[416]
|
| 73.
Architecture of CTPS filament networks revealed by cryo-electron t..
[395]
|
| 74.
Dynamic cytoophidia during Drosophila late oogene..
[394]
|
| 75.
GTP as an enzymatic synchronizer
[389]
|
| 76.
用于检测核酸-蛋白质相互作用的组合物和方法
[378]
|
| 77.
Structural Basis of Bifunctional CTP/dCTP Synthase
[368]
|
| 78.
Structure and function of cytoophidia
[366]
|
| 79.
Connecting Hippo Pathway and Cytoophidia in Drosophila Posterior F..
[350]
|
| 80.
Interplay Between Intracellular Transport Dynamics and Liquid‒Liq..
[343]
|
| 81.
CTP synthase does not form cytoophidia in Drosophila
[333]
|
| 82.
Cytoophidia maintain the integrity of Drosophila ..
[322]
|
| 83.
eCRUIS captures RNA-protein interaction in vitro and in vivo
[306]
|
| 84.
Cytoophidia safeguard binucleation of Drosophila ..
[290]
|
| 85.
Filamentation and inhibition of prokaryotic CTP synthase with liga..
[284]
|
| 86.
Developing Device of Death Operation (DODO) to Detect Apoptosis in..
[267]
|
| 87.
The Impact of Developmental and Metabolic Cues on Cytoophidium For..
[265]
|
| 88.
Cytoophidia Influence Cell Cycle and Size in Schizosaccharomyces p..
[258]
|
| 89.
Differential cytoophidium assembly between Saccharomyces cerevisia..
[250]
|
| 90.
我的导师高尔博士
[207]
|
| 91.
Cytoophidium complexes resonate with cell fates
[54]
|
| 92.
Structural basis for activation and filamentation of glutaminase
[41]
|
| 93.
Epic, classic, and remarkable: 75 years of Experimental Cell Re..
[18]
|
| 94.
VitisC: Visualizing interested target via integrated scaffold of c..
[5]
|
