| 223 - 229 |
3D structure of the CD26-ADA complex obtained by cryo-EM and single particle analysis
Ludwig K, Fan H, Dobers J, Berger M, Reutter W, Bottcher C |
| 230 - 236 |
Evolutionarily conserved expression pattern and trans-regulating activity of Xenopus p51/p63
Tomimori Y, Katoh I, Kurata S, Okuyama T, Kamiyama R, Ikawa Y |
| 237 - 244 |
S100A16, a ubiquitously expressed EF-hand protein which is up-regulated in tumors
Marenholz I, Heizmann CW |
| 245 - 257 |
Expression of L-ornithine N-delta-oxygenase (PvdA) in fluorescent Pseudomonas species: an immunochemical and in silico study
Putignani L, Ambrosi C, Ascenzi P, Visca P |
| 258 - 262 |
Establishment of a new model of human multiple myeloma using NOD/SCID/gamma(null)(c) (NOG) mice
Miyakawa Y, Ohnishi Y, Tomisawa M, Monnai M, Kohmura K, Ueyama Y, Ito M, Ikeda Y, Kizaki M, Nakamura M |
| 263 - 270 |
Expression of a novel secretory form (Crb1s) of mouse Crumbs homologue Crb1 in skin development
Watanabe T, Miyatani S, Katoh I, Kobayashi S, Ikawa Y |
| 271 - 276 |
Esterified lipid hydroperoxide-derived modification of protein: formation of a carboxyalkylamide-type lysine adduct in human atherosclerotic lesions
Kawai Y, Fujii H, Kato Y, Kodama M, Naito M, Uchida K, Osawa T |
| 277 - 286 |
Peroxisome proliferator-activated receptor delta activates fatty acid oxidation in cultured neonatal and adult cardiomyocytes
Cheng LH, Ding GL, Qin QH, Xiao Y, Woods D, Chen YQE, Yang QL |
| 287 - 293 |
A balanced expression of two chains of heterodimer protein, the human interleukin-12, improves high-level expression of the protein in CHO cells
Liu WT, Wei HM, Liang SJ, Zhang J, Sun R, Tian ZG |
| 294 - 299 |
Escherichia coli rpoS gene has an internal secondary translation initiation region
Subbarayan PR, Sarkar M |
| 300 - 307 |
Phorbol ester regulation of the human gamma-glutamyltransferase gene promoter
Daubeuf S, Duvoix A, Wellman-Rousseau M, Diederich M, Visvikis A |
| 308 - 313 |
Selective production of rat mutant selenoprotein W with and without bound glutathione
Bauman AT, Malencik DA, Barofsky DF, Barofsky E, Anderson SR, Whanger PD |
| 314 - 319 |
Trehalose 6-phosphate synthase from Selaginella lepidophylla: purification and properties
Valenzuela-Soto EM, Marquez-Escalante JA, Iturriaga G, Figueroa-Soto CG |
| 320 - 326 |
A novel MET-interacting protein shares high sequence similarity with RanBPM, but fails to stimulate MET-induced Ras/Erk signaling
Wang DK, Li ZB, Schoen SR, Messing EM, Wu G |
| 327 - 335 |
The functional mapping of long-range transcription control elements of the HOX11 proto-oncogene
Brake RL, Chatterjee PK, Kees UR, Watt PM |
| 336 - 342 |
Nucleic acid sequence-based amplification methods to detect avian influenza virus
Lau LT, Banks J, Aherne R, Brown IH, Dillon N, Collins RA, Chan KY, Fung YWW, Xing J, Yu ACH |
| 343 - 350 |
Mapping cooperative activity of the hepatitis C virus RNA-dependent RNA polymerase using genotype 1a-1b chimeras
Gu BH, Gutshall LL, Maley D, Pruss CM, Nguyen TT, Silverman CL, Lin-Goerke J, Khandekar S, Liu CB, Baker AE, Casper DJ, Sarisky RT |
| 351 - 355 |
Nuclear export of signal recognition particle RNA in mammalian cells
Alavian CN, Politz JCR, Lewandowski LB, Power CM, Pederson T |
| 356 - 361 |
Interaction of fusogenic peptides with an antisense oligonucleotide in solution and in the presence of micelles: conformational studies
Laczko I, Bottka S, Toth GK, Malvy C, Bertrand JR, Hollosi M |
| 362 - 368 |
H2S generated by heart in rat and its effects on cardiac function
Geng B, Yang JH, Qi YF, Zhao J, Pang YZ, Du JB, Tang CS |
| 369 - 375 |
Arabidopsis stress-inducible gene for arginine decarboxylase AtADC2 is required for accumulation of putrescine in salt tolerance
Urano K, Yoshiba Y, Nanjo T, Ito T, Yamaguchi-Shinozaki K, Shinozaki K |
| 379 - 379 |
Physiopharmacological effects of branched-chain amino acids in animals
Ichihara A |
| 381 - 385 |
Effects of liver failure on the enzymes in the branched-chain amino acid catabolic pathway
Shimomura Y, Honda T, Goto H, Nonami T, Kurokawa T, Nagasaki M, Murakami T |
| 387 - 389 |
Pharmacological activities of branched-chain amino acids: specificity of tissue and signal transduction
Nishitani S, Ijichi C, Takehana K, Fujitani S, Sonaka I |
| 391 - 396 |
Mechanisms responsible for regulation of branched-chain amino acid catabolism
Harris RA, Joshi M, Jeoung NH |
| 397 - 403 |
Amino acid signalling and the integration of metabolism
Meijer AJ, Dubbelhuis PF |
| 405 - 409 |
Branched-chain amino acids as a protein- and energy-source in liver cirrhosis
Moriwaki H, Miwa Y, Tajika M, Kato M, Fukushima H, Shiraki M |
| 411 - 416 |
Significance of branched chain amino acids as possible stimulators of hepatocyte growth factor
Tomiya T, Omata M, Fujiwara K |
| 417 - 422 |
Regulation of protein synthesis by branched-chain amino acids in vivo
Yoshizawa F |
| 423 - 427 |
Regulation of global and specific mRNA translation by oral administration of branched-chain amino acids
Kimball SR, Jefferson LS |
| 429 - 436 |
mTOR-mediated regulation of translation factors by amino acids
Proud CG |
| 437 - 441 |
Raptor, a binding partner of target of rapamycin
Yonezawa K, Tokunaga C, Oshiro N, Yoshino K |
| 443 - 446 |
mTOR integrates amino acid- and energy-sensing pathways
Tokunaga C, Yoshino K, Yonezawa K |
| 447 - 452 |
Amino acids as regulators of gene expression: molecular mechanisms
Jousse C, Averous J, Bruhat A, Carraro V, Mordier S, Fafournoux P |
| 453 - 458 |
Autophagy: a regulated bulk degradation process inside cells
Yoshimori T |
