INDEX to JOURNAL OF BIOLOGICAL RHYTHMS Volume 22 Number 1 (February 2007), pp. 1-88 Number 2 (April 2007), pp. 89-196 Number 3 (June 2007), pp. 197-280 Number 4 (August 2007), pp. 281-372 Number 5 (October 2007), pp. 373-464 Number 6 (December 2007), pp. 465-568 Authors: CERMAKIAN NICOLAS, see Doi M ABRAHAMSEN, JENNY FOSS, see Tsinkalovsky, O. CHEN, CHUN-CHUN, see Gror ie, B.| Dp ANTLE, MICHAELC ., NICHOLAS C. FOLEY, DUNCAN K. CHENG, ANDREW TAI-ANN ee Gau, S. S.-F. FOLEY, and RAE SILVER, “Gates and Oscillators II CHEN-GOODSPEED, MISTY na CHENG Crsi 7 Zeitgebers and the Network Model of the Brain Clock,” 14 lumor Suppression and ¢ } ian Function 90] ANTLE, MICHAEL C., ROXANNE STERNICZUK, VICTO- HIU, YEN-NAN, see Gau, S. S RIA M. SMITH, and KIMBERLY HAGEL, “Non-Photi« HO, SEHYUN ;, see Doi M Modulation of Phase Shifts to Long Light Pulses,” 524. OMAS, M., D. G. M BEERSMA[ A K. SPOELSTRA, and ; ANTLE, MICHAEL C., see Indic, P. S. DAAN, “Ci cadian Kespo! e Reduction in Light and ARENDT, JOSEPHINseEe G,ibb s, M Nesp Kesto1 ition | ) ' Knn ess A \ Skeleton’ Light BADIEE, AZADEH, see Tsinkalovsky, O ‘ulse PRC St uday in Mice is), 432 BAE, KIHO, and DAVID R. WEAVER, “Transient, Light ER, HO' WARD M., see M Induced Rhythmicity in mPER-Deficient Mice” [Letter], 85 MARY K., see Bitt BAE, KIHO, see Ko, H. W. ZEISLER, CHARLES A., see BARTELL, PAUL A., MANUEL MIRANDA-ANAYA \AN, S., see Comas, M WILSON McIVOR, and MICHAEL MENAKER, “Interac- ROBER] NTHER LEMM and tions between Dopamine and Melatonin Organize MROSOVSKY, “Tow sier Methods of Studying Circadian Rhythmicity in the Retina of the Green Iguana,’ Nonphotic Behavioral Ent I Mice 158 515. N, DENNIS A., Il, AA DA FLETCHER STEVEN R BAUERNFEIND, AMY L., see Rymer, J d ELIZABETH . KLERMAN Dev eloping BEAULIEU, CATHERINE, see Rufiange, M \ Models of } oral Performance BEERSMA, D. G. M., see Comas, M for the ‘Real V Vorid G 4‘tO BEHN, CECILIA DINIZ, see Best, } DESROSIERS, ( A\THERINI BERSON, DAVID M., see Wong, K. Y. \NNE, see | BEST, JANET, CECILIA DINIZ BEHN, GINA R. POE, and RAINER ee INI 1) VICTORIA BOOTH, “Neuronal Models for Sleep-Wake SEHYUNG CHO IRENE YUJNOVSKY, Jl N Regulation and Synaptic Reorganization in the Sleeping NICOLAS CER} [AKIAN ANDREW C. B Hippocampus” [Summary], 220 CATO | \OOLOC) SASSO) E-CORSI Light-Inducible BICHLER, DOMINIK, see Rieger, D ntrolied Ext f MAP Kinase Phos- .— BITTMAN, ERIC L., MARY K. COSTELLO, and JUDY 1 Mouse Cent iker Neurons,” 1] Cy] A\/T McKINLEY BREWER, “Circadian Organization of fau Z i DAVID IVOS IAN, VLADIMIR KOST’ Mutant Hamsters: Aftereffects and Splitting,” 425 \I MAGDALENA H¢ IDKOVA Photoper iodik BLOCH, G., see Meshi, A. nd d Signals Cont Pattern of the BOOTH, VICTORIA, see Best, J. Period Bug BREWER, JUDY McKINLEY, see Bittman, E. L. BROWN, SCOTT, see Rymer, J. DOYLE, FRANCIS J., III, see ¢ CAIN, SEAN W., DAVID W. RIMMER, JEANNE F. DUFFY DOYLE, FR \NCIS | II] and CHARLES A. CZEISLER, “Exercise Distributed across DUFFY, JEANNE FE.,, see ¢ Day and Night Does Not Alter Circadian Period in DUMONT, MARIE, see G Humans,” 534. DUMONT, MARIE see R CATO, ANDREW C. B., see Doi, M EBIHARA, SHIZUFUMI JOURNAL OF BIOLOGICAL RHYTHMS, Vol 22 No. 6, December © 2007 Sage Publications 562 INDEX to JOURNAL OF BIOLOGICAL RHYTHMS Volume 22 Number 1 (February 2007), pp. 1-88 Number 2 (April 2007), pp. 89-196 Number 3 (June 2007), pp. 197-280 Number 4 (August 2007), pp. 281-372 Number 5 (October 2007), pp. 373-464 Number 6 (December 2007), pp. 465-568 Authors: CERMAKIAN NICOLAS, see Doi M ABRAHAMSEN, JENNY FOSS, see Tsinkalovsky, O. CHEN, CHUN-CHUN, see Gror ie, B.| Dp ANTLE, MICHAELC ., NICHOLAS C. FOLEY, DUNCAN K. CHENG, ANDREW TAI-ANN ee Gau, S. S.-F. FOLEY, and RAE SILVER, “Gates and Oscillators II CHEN-GOODSPEED, MISTY na CHENG Crsi 7 Zeitgebers and the Network Model of the Brain Clock,” 14 lumor Suppression and ¢ } ian Function 90] ANTLE, MICHAEL C., ROXANNE STERNICZUK, VICTO- HIU, YEN-NAN, see Gau, S. S RIA M. SMITH, and KIMBERLY HAGEL, “Non-Photi« HO, SEHYUN ;, see Doi M Modulation of Phase Shifts to Long Light Pulses,” 524. OMAS, M., D. G. M BEERSMA[ A K. SPOELSTRA, and ; ANTLE, MICHAEL C., see Indic, P. S. DAAN, “Ci cadian Kespo! e Reduction in Light and ARENDT, JOSEPHINseEe G,ibb s, M Nesp Kesto1 ition | ) ' Knn ess A \ Skeleton’ Light BADIEE, AZADEH, see Tsinkalovsky, O ‘ulse PRC St uday in Mice is), 432 BAE, KIHO, and DAVID R. WEAVER, “Transient, Light ER, HO' WARD M., see M Induced Rhythmicity in mPER-Deficient Mice” [Letter], 85 MARY K., see Bitt BAE, KIHO, see Ko, H. W. ZEISLER, CHARLES A., see BARTELL, PAUL A., MANUEL MIRANDA-ANAYA \AN, S., see Comas, M WILSON McIVOR, and MICHAEL MENAKER, “Interac- ROBER] NTHER LEMM and tions between Dopamine and Melatonin Organize MROSOVSKY, “Tow sier Methods of Studying Circadian Rhythmicity in the Retina of the Green Iguana,’ Nonphotic Behavioral Ent I Mice 158 515. N, DENNIS A., Il, AA DA FLETCHER STEVEN R BAUERNFEIND, AMY L., see Rymer, J d ELIZABETH . KLERMAN Dev eloping BEAULIEU, CATHERINE, see Rufiange, M \ Models of } oral Performance BEERSMA, D. G. M., see Comas, M for the ‘Real V Vorid G 4‘tO BEHN, CECILIA DINIZ, see Best, } DESROSIERS, ( A\THERINI BERSON, DAVID M., see Wong, K. Y. \NNE, see | BEST, JANET, CECILIA DINIZ BEHN, GINA R. POE, and RAINER ee INI 1) VICTORIA BOOTH, “Neuronal Models for Sleep-Wake SEHYUNG CHO IRENE YUJNOVSKY, Jl N Regulation and Synaptic Reorganization in the Sleeping NICOLAS CER} [AKIAN ANDREW C. B Hippocampus” [Summary], 220 CATO | \OOLOC) SASSO) E-CORSI Light-Inducible BICHLER, DOMINIK, see Rieger, D ntrolied Ext f MAP Kinase Phos- .— BITTMAN, ERIC L., MARY K. COSTELLO, and JUDY 1 Mouse Cent iker Neurons,” 1] Cy] A\/T McKINLEY BREWER, “Circadian Organization of fau Z i DAVID IVOS IAN, VLADIMIR KOST’ Mutant Hamsters: Aftereffects and Splitting,” 425 \I MAGDALENA H¢ IDKOVA Photoper iodik BLOCH, G., see Meshi, A. nd d Signals Cont Pattern of the BOOTH, VICTORIA, see Best, J. Period Bug BREWER, JUDY McKINLEY, see Bittman, E. L. BROWN, SCOTT, see Rymer, J. DOYLE, FRANCIS J., III, see ¢ CAIN, SEAN W., DAVID W. RIMMER, JEANNE F. DUFFY DOYLE, FR \NCIS | II] and CHARLES A. CZEISLER, “Exercise Distributed across DUFFY, JEANNE FE.,, see ¢ Day and Night Does Not Alter Circadian Period in DUMONT, MARIE, see G Humans,” 534. DUMONT, MARIE see R CATO, ANDREW C. B., see Doi, M EBIHARA, SHIZUFUMI JOURNAL OF BIOLOGICAL RHYTHMS, Vol 22 No. 6, December © 2007 Sage Publications 562 INDEX 563 EDERY, ISAAC, see Ko, H. W. HELFRICH-FORSTER, CHARLOTTE, see Veleri, S. EIKEN, HANS GEIR, see Tsinkalovsky, O. HERZEL, HANSPETER, see Reischl, S. ELLIOTT, JEFFREY A., see Evans, J. A. HERZOG, ERIK D., see Indic, P. EVANS, JENNIFER A., JEFFREY A. ELLIOTT, and HIRAYAMA, JUN, see Doi, M. MICHAEL R. GORMAN, “Circadian Effects of Light No HIRT, ASLE, see Tsinkalovsky, O Brighter Than Moonlight,” 356. HODKOVA, MAGDALENA, see Dolezel, D. FERNALD, RUSSELL D., see Grone, B. HONG, CHRISTIAN L., see Zamborszky, J. FLETCHER, ADAM, see Dean, D. A. HONMA, KEN-ICHI, see Noshiro, M. FOLEY, DUNCAN K., see Morin, L. P. HONMA, SATO, see Noshiro, M. FOLEY, NICHOLAS C., see Indic, P. HORIKAWA, KAZUMASA, see Ishihara, A. FOLEY, NICHOLAS C., see Morin, L. P. HURSH, STEVEN R., see Dean, D. A. FORGER, DANIEL, and WILLARD LARKIN, “Introduction ILLNEROVA, HELENA, see Sumova, A. to the Special Section on Modeling Rhythms, Sleep, and INDIC, PREMANANDA, WILLIAM J. SCHWARTZ, ERIK D Performance” [Summary], 199. HERZOG, NICHOLAS C. FOLEY, and MICHAEL C. FORGER, DANIEL, DIDIER GONZE, DAVID VIRSHUP, ANTLI Modeling the Behavior of Coupled Cellular and DAVID K. WELSH, “Beyond Intuitive Modeling: Circadian Oscillators in the Suprachiasmatic Nucleus” Combining Biophysical Models with Innovative [Summary], 211 Experiments to Move the Circadian Clock Field Forward’ ISHIHARA, AKINORI, ERIKO MATSUMOTO, KAZUMASA [Summary], 200. HORIKAWA, TAKASHI KUDO, EIKO SAKAO, AYAKO FORGER, DANIEL B., see Sim, C. K. NEMOTO, KATSURO IWASE, HAJIME SUGIYAMA, FRANCOIS, MARIE-CHRISTINE, see Merlin, C. YUTAKA TAMURA, SHIGENOBU SHIBATA, and FRAUNHOLZ, CHRISTINA, see Rieger, D. MASAKI TAKIGUCHL, “Multifactorial Regulation of Daily FUHRMANN, MARKUS, see Kiaulehn, S. Rhythms in Expression of the Metabolicaily Responsive FUJII, KANA, see Yoshii, T. Gene Spot14 in the Mouse Liver,” 324. FUJIMOTO, KATSUMI, see Noshiro, M. IWASAKI, HIDEO, see Miyoshi, F. FURUKAWA, MASAE, see Noshiro, M. IWASE, KATSURO, see Ishihara, A. GAU, SUSAN SHUR-FEN, CHI-YUNG SHANG, KATH- JACQUIN-JOLY, EMMANUELLE, see Merlin,C . LEEN R. MERIKANGAS, YEN-NAN CHIU, WEI KAIZU, KAZUNARI, see Miyoshi, F. TSUEN SOONG, and ANDREW TAI-ANN CHENG KATO, YUKIO, see Noshiro, M. “Association between Morningness-Eveningness and KAWAMOTO, TAKESHI, see Noshiro, M. Behavioral/Emotional Problems among Adolescents, KAWASHIMA, MIHOKO, see Kudo, T. 268. KIAULEHN, STEFANIE, OLGA VOYTSEKH, MARKUS GIBBS, MICHELLE, SHELAGH HAMPTON, LINDA MOR- FUHRMANN, and MARIA MITTAG, “The Presence of GAN, and JOSEPHINE ARENDT, “Predicting Circadian UG-Repeat Sequences in the 3’-UTRs of Reporter Response to Abrupt Phase Shift: 6-Sulphatoxymelatonin Luciferase mRNAs Mediates Circadian Expression and Rhythms in Rotating Shift Workers Offshore” [Letter], 368 Can Determine Acrophase in Chlamydomonas reinhardtii” GONZE, DIDIER, see Forger, D [Letter], 275 GOOLEY, JOSHUA J., and CLIFFORD B. SAPER, “Is Food KIM, EUN YOUNG, see Ko, H. W. Directed Behavior an Appropriate Measure of Circadian KLERMAN, ELIZABETH B., and MELISSA ST. HILAIRE, Entrainment to Restricted Daytime Feeding?” [Comment] On Mathematical Modeling of Circadian Rhythms, 479. Pe rformance, and Alertness” [Review], 91. GORMAN, MICHAEL R., see Evans, J. A. ER MAN, ELIZABETH B., see Dean, D. A. : GOULET, GENEVIEVE, VALERIE MONGRAIN, CATHER f RMAN, ELIZABETH B., see Kronauer, R. I INE DESROSIERS, JEAN PAQUET, and MARII HYUK WAN, SUZANNE DiMASSA, EUN YOUNG DUMONT, “Daily Light Exposure in Morning-Type and KIM, KIHO BAE, and ISAAC EDERY, “Cis-Combination Evening-Type Individuals,” 151. e Classi r and pe Mutations Results in GOYMANN, WOLFGANG, see Voigt =. ila with Ectopic Accumulation of GRAHAM, DUSTIN M., see Wong, K. ¥ IH H erphospho| rv] ited PERIOD Protein,” 488. GRONE, BRIAN P., SHENG ZHAO, CHUN-CHUN KOST’ AL, VLADIMIR, see Dolezel, D. CHEN, and RUSSELL D. FERNALD, “Localization and KOVAC’IKOVA, ZUZANA, see Sumova, A. Diurnal Expression of Melanopsin, Vertebrate Ancient KRAMER, ACHIM, see Reischl,S . Opsin, and Pituitary Adenylate Cyclase-Activating KRONAUER, RICHARD E., GLENN GUNZELMANN, Peptide mRNA in a Teleost Retina” [Letter], 558 HANS P. A. VAN DONGEN, FRANCIS J. DOYLE IIL, and GUNAWAN, RUDIYANTO, and FRANCIS J. DOYLE III ELIZABETH B KLERMAN, “Uncovering Physiologic “Phase Sensitivity Analysis of Circadian Rhythm Mechanisms of Circadian Rhythms and Sleep/Wake Entrainment,” 180. Regulation through Mathematical Modeling” [Summary], GUNZELMANN, GLENN, see Kronauer, R. I HAGEL, KIMBERLY, see Antle, M. C. ), HIROSHI, see Noshiro, M. HAMPTON, SHELAGH, see Gibbs, M DO, TAKASHI, TORU TAMAGAWA, MIHOKO HATTAR, SAMER, see Mure, L. S KAWASHIMA, NATSUKO MITO, and SHIGENOBU HELFRICH-FORSTER, CHARLOTTE, see Rieger, D SHIBATA, “Attenuating Effect of Clock Mutation on 564 JOURNAL OF BIOLOGICAL RHYTHMS / December 2007 Triglyceride Contents in the ICR Mouse Liver under a MORGAN, LINDA, see Gibbs, M. High-Fat Diet,” 312. MORIN, LAWRENCE P., “SCN Organization Reconsidered” KUDO, TAKASHL, see Ishihara, A. [Review], 3 KUPFER, DAVID J., see Monk, T. H. MROSOVSKY, N., see Dallman, R. LACHAPELLE, PIERRE, see Rufiange, M. MURE, LUDOVIC S., CAMILLE RIEUX, SAMER HATTAR, LAERUM, OLE DIDRIK, see Tsinkalovsky, O. and HOWARD M. COOPER, “Melanopsin-Dependent LANDRY, GLENN J., and RALPH E. MISTLBERGER, “Food Nonvisual Responses: Evidence for Photopigment Entrainment: Methodological Issues” [Reply], 484. Bistability In Vivo,” 411. LANDRY, GLENN J., GLENN R. YAMAKAWA, IAN C. NAGY, ATTILA CSIKASZ, see Zamborszky, J. WEBB, RHIANNON J. MEAR, and RALPH E. MISTL- NAITO, EMIKO, see Watanabe, 1 BERGER, “The Dorsomedial Hypothalamic Nucleus Is NAKAO, NOBUHIRO, see Watanabe, T. Not Necessary for the Expression of Circadian Food- NAKAYAMA, YOICHI, see Miyoshi, F. Anticipatory Activity in Rats,” 467. NEMOTO, AYAKO, see Ishihara, A. LARKIN, WILLARD, see Forger, D. NOSHIRO, MITSUHIDE, EMIKO USUI, TAKESHI LEE, CHENG CHI, see Chen-Goodspeed, M. KAWAMOTO, HIROSHI KUBO, KATSUMI FUJIMOTO, LEITNER, STEFAN, see Voigt, C. MASAE FURUKAWA, SATO HONMA, MAKOTO MAK- LEMM, GUNTHER, see Dallman, R. ISHIMA, KEN-ICHI HONMA, and YUKIO KATO, LEVI, F., see Li, X. M. “Multiple Mechanisms Regulate Circadian Expression of LI, X. M., and F. LEVI, “Circadian Physiology Is a Toxicity the Gene for Cholesterol 7a-Hydroxylase (Cyp7a), a Key Target of the Anticancer Drug Gemcitabine in Mice,” 159. Enzyme in Hepatic Bile Acid Biosynthesis,”299. LOBACHEVSKY, NIKOLAI IVANOVICH, “Principles of PAGE, TERRY L., see Rymer, J Professional Ethics for Scientists” [Letter], 195. PAQUET, JEAN, see Goulet, G LUCAS, PHILIPPE, see Merlin, C. PHILLIPS, A. J. K., and P. A. ROBINSON, “A Quantitative MAIBECHE-COISNE, MARTINE, see Merlin, C. Model of Sleep-Wake Dynamics Based on the Physiology MAIER, BERT, see Reischl, S. of the Brainstem Ascending Arousal System,” 167. MAKISHIMA, MAKOTO, see Noshiro, M. POE, GINA R., see Best, J. MATSUMOTO, ERIKO, see Ishihara, A. POPP, JOCHEN, see Rieger, D McIVOR, WILSON, see Bartell, P. A. REISCHL, SILKE, KATJA VANSELOW, PAL O. WESTER- MEAR, RHIANNON J., see Landry, G. J. MARK, NADINE THIERFELDER, BERT MAIER, MENAKER, MICHAEL, see Bartell, P. A. HANSPETER HERZEL, and ACHIM KRAMER, “B-TrCP1- MERIKANGAS, KATHLEEN R., see Gau, S. S.-F. Mediated Degradation of PERIOD2 Is Essential for MERLIN, CHRISTINE, PHILIPPE LUCAS, DIDIER Circadian Dynamics,” 375 ROCHAT, MARIE-CHRISTINE FRANCOIS, MARTINI RIEGER, DIRK, CHRISTINA FRAUNHOLZ, JOCHEN MAIBECHE-COISNE, and EMMANUELLE JACQUIN- POPP, DOMINIK BICHLER, RAINER DITTMANN, JOLY, “An Antennal Circadian Clock and Circadian and CHARLOTTE HELFRICH-FORSTER, “The Fruit Rhythms in Peripheral Pheromone Reception in the Moth Fly Drosophila melanogaster Favors Dim Light and Spodoptera littoralis,” 502. Times Its Activity Peaks to Early Dawn and Late MESHIL, A., and G. BLOCH, “Monitoring Circadian Rhythms Dusk,” 387 of Individual Honey Bees in a Social Environment Reveals RIEGER, DIRK, see Veleri, S Social influences on Postembryonic Ontogeny of Activity RIEUX, CAMILLE, see Mure, L. S Rhythms,”343. RIMMER, DAVID W., see Cain, S. W. MEYER, PABLO, and MICHAEL W. YOUNG, “The 2006 ROBINSON, P. A., see Phillips, A. J. K Pittendrigh/ Aschoff Lecture: New Roles for Old Proteins ROCHAT, DIDIER, see Merlin, ¢ in the Drosophila Circadian Clock” [Review], 283. ROSENLUND, BENEDIKTE, see Tsinkalovsky, O. MIRANDA-ANAYA, MANUEL, see Bartell, P. A. RUFIANGE, MARIANNE, CATHERINE BEAULIEU, PIERRE MISTLBERGER, RALPH E., see Landry, G. J. LACHAPELLE, and MARIE DUMONT, “Circadian Light MITO, NATSUKO, see Kudo, T. Sensitivity and Rate of Retinal Dark Adaptation in Indoor MITTAG, MARIA, see Kiaulehn, S. and Outdoor Workers,” 454 MIYASAKO, YOKO, YUJIRO UMEZAKI, and KENjl RYMER, JENNIFER, AMY L. BAUERNFEIND, SCOTT TOMIOKA, “Separate Sets of Cerebral Clock Neurons Are BROWN, and TERRY L. PAGE, “Circadian Rhythms in Responsible for Light and Temperature Entrainment of the Mating Behavior of the Cockroach, Leucophaea Drosophila Circadian Locomotor Rhythms,” 115. maderae,” 43 MIYOSHI, FUMIHIKO, YOICHI NAKAYAMA, KAZU- SAKAO, EIKO, see Ishihara, A NARI KAIZU, HIDEO IWASAKI, and MASARU SAPER, CLIFFORD B., see Gooley, J. J. TOMITA, “A Mathematical Model for the Kai- SASSONE-CORSI, PAOLO, see Doi, M. Protein—Based Chemical Oscillator and Clock Gene SAUMAN, IVO, see Dolezel, D Expression Rhythms in Cyanobacteria,” 69. SCHWARTZ, WILLIAM J., see Indic, P. MONGRAIN, VALERIE, see Goulet, G. SCHWARTZ, WILLIAM J., see Tavakoli-Nezhad, M. MONK, TIMOTHY H., and DAVID J. KUPFER, “Which SHANG, CHI-YUNG, see Gau, S. S.-F. Aspects of Morningness-Eveningness Change with Age?” SHIBATA, SHIGENOBU, see Ishihara, A. [Letter], 278. SHIBATA, SHIGENOBU, see Kudo, T. INDEX 565 SILVER, RAE, see Morin, L. P. WEBB, IAN C., see Landry, G. J. SIM, CHOON KIAT, and DANIEL B. FORGER, “Modeling WELSH, DAVID K., “Gate Cells See the Light” [Comment], 26. the Electrophysiology of Suprachiasmatic Nucleus WELSH, DAVID K., see Forger, D. Neurons,” 445. WESTERMARK, PAL O., see Reischl, S. SMAALAND, RUNE, see Tsinkalovsky, O. WONG, KWOON Y., DUSTIN M. GRAHAM, and DAVID M. SMITH, VICTORIA M., see Antle, M. C. BERSON, “The Retina-Attached SCN Slice Preparation: SOONG, WEI-TSUEN, see Gau, S. S.-F. An In Vitro Mammalian Circadian Visual System,” 400 SOTHERN, ROBERT B., see Tsinkalovsky, O. YAMAKAWA, GLENN R., see Landry, G. J. SPOELSTRA, K., see Comas, M. YOSHII, TAISHI, KANA FUJII, and KENJI TOMIOKA, ST. HILAIRE, MELISSA, see Klerman, E. B. “Induction of Drosophila Behavioral and Molecular STANEWSKY, RALF, see Veleri, S. Circadian Rhythms by Temperature Steps in Constant STEINE, SOLRUN, see Tsinkalovsky, O. Light,” 103. STERNICZUK, ROXANNE, see Antle, M. C. YOSHIMURA, TAKASHI, see Watanabe, T. SUGIYAMA, HAJIME, see Ishihara, A. YOUNG, MICHAEL W., see Meyer, P. SUMOVA, ALENA, ZUZANA KOVACIKOVA, and YUJNOVSKY, IRENE, see Doi, M. HELENA ILLNEROVA, “Dynamics of the Adjustment ZAMBORSZKY, JUDIT, CHRISTIAN I. HONG, and of Clock Gene Expression in the Rat Suprachiasmatic ATTILA CSIKASZ NAGY, “Computational Analysis of Nucleus to an Asymmetrical Change from a Long to a Mammalian Cell Division Gated by a Circadian Clock: Short Photoperiod,” 259. Quantized Cell Cycles and Cell Size Control,” 542. TAKIGUCHI, MASAKI, see Ishihara, A. ZHAO, SHENG, see Grone, B. P. TAMAGAWA, TORU, see Kudo, T. TAMURA, YUTAKA, see Ishihara, A. Articles: TAO-CHENG, JUNG-HWA, see Tavakoli-Nezhad, M. “B-TrCP1-Mediated Degradation of PERIOD2 Is Essential TAVAKOLI-NEZHAD, MAHBOUBEH, JUNG-HWA TAO- for Circadian Dynamics,” Reischl et al., 375. CHENG, DAVID R. WEAVER, and WILLIAM J. “An Antennal Circadian Clock and Circadian Rhythms in SCHWARTZ, “PER1-Like Immunoreactivity — in Peripheral Pheromone Reception in the Moth Spodoptera Oxytocin Cells of the Hamster Hypothalamo- littoralis,” Merlin et al., 502. Neurohypophyseal System” [Letter], 81. ‘Association between Morningness-Eveningness and TEI, HAJIME, see Watanabe, T. Behavioral/Emotional Problems among Adolescents,” THIERFELDER, NADINE, see Reischl, S. Gau et al., 268 TOMIOKA, KENJI, see Miyasako, Y. “Attenuating Effect of Clock Mutation on Triglyceride TOMIOKA, KENJI, see Yoshii, T. Contents in the ICR Mouse Liver under a High-Fat TOMITA, MASARU, see Miyoshi, F. Diet,” Kudo et al., 312. TSINKALOVSKY, OLEG, RUNE SMAALAND, BENEDIKTI ‘Bimodal Clock Gene Expression in Mouse Suprachiasmatic ROSENLUND, ROBERT B. SOTHERN, ASLE HIRT, SOL- Nucleus and Peripheral Tissues Under a 7-Hour Light and RUN STEINE, AZADEH BADIEE, JENNY FOSS ABRA- 5-Hour Dark Schedule,” Watanabe et al., 58. HAMSEN, HANS GEIR EIKEN, and OLE DIDRIK ircadian Effects of Light No Brighter Than Moonlight,” LAERUM, “Circadian Variations in Clock Gene Expression Evans et al., 356. of Human Bone Marrow CD34+ Cells,” 140. ircadian Organization of tau Mutant Hamsters: UMEZAKI, YUJIRO, see Miyasako, Y. \ftereffects and Splitting,” Bittman et al., 425. USUI, EMIKO, see Noshiro, M. ircadian Physiology Is a Toxicity Target of the Anticancer VAN DONGEN, HANS P. A., see Kronauer, R. I Drug Gemcitabine in Mice,” Li and Lévi, 159. VANSELOW, KATJA, see Reischl, S. ircadian Response Reduction in Light and Response VELERI, SHOBI, DIRK RIEGER, CHARLOTTE HELFRICH- Restoration in Darkness: A ‘Skeleton’ Light Pulse PRC FORSTER, and RALF STANEWSKY, “Hofbauer-Buchner Study in Mice (Mus musculus),” Comas et al., 432. Eyelet Affects Circadian Photosensitivity and Coordinates ircadian Rhythms in the Mating Behavior of the TIM and PER Expression in Drosophila Clock Neurons,” 29. Cockroach, Leucophaea maderae,” Rymer et al., 43. VIRSHUP, DAVID, see Forger, D. ircadian Variations in Clock Gene Expression of Human VOIGT, CORNELIA, WOLFGANG GOYMANN, and Bone Marrow CD34+ Cells,” Tsinkalovsky et al., 140. STEFAN LEITNER, “Green Matters! Growing Vegeta- isCombination of the Classipce r? and per Mutations Results tion Stimulates Breeding under Short-Day Conditions in in Arrhythmic Drosophila with Ectopic Accumulation of Wild Canaries (Serinus canaria)” {Letter], 554. Hyperphosphorylated PERIOD Protein,” Ko et al., 488. VOYTSEKH, OLGA, see Kiaulehn, S. “Computational Analysis of Mammalian Cell Division WATANABE, TSUYOSHI, EMIKO NAITO, NOBUHIRO Gated by a Circadian Clock: Quantized Cell Cycles and NAKAO, HAJIME TEI, TAKASHI YOSHIMURA, and Cell Size Control,” Zamborszky et al., 542. SHIZUFUMI EBIHARA, “Bimodal Clock Gene Expression “Daily Light Exposure in Morning-Type and Evening-Type in Mouse Suprachiasmatic Nucleus and Peripheral Tissues Individuals,” Goulet et al., 151. Under a 7-Hour Light and 5-Hour Dark Schedule,” 58. “The Dorsomedial Hypothalamic Nucleus Is Not Necessary WEAVER, DAVID R., see Bae, K. for the Expression of Circadian Food-Anticipatory Activity WEAVER, DAVID R., see Tavakoli-Nezhad, M. in Rats,” Landry et al., 467. 566 JOURNAL OF BIOLOGICAL RHYTHMS / December “Dynamics of the Adjustment of Clock Gene Expression in the Letters: Rat Suprachiasmatic Nucleus to an Asymmetrical Change “Circadian Light Sensitivity and Rate of Retinal Dark from a Long to a Short Photoperiod,” Sumova et al., 259. \daptation in Indoor and Outdoor Workers,” Rufiange “Exercise Distributed across Day and Night Does Not Alter et al., 454 Circadian Period in Humans,” Cain et al., 534. “Green Matters! Growing Vegetation Stimulates Breeding “The Fruit Fly Drosophila melanogaster Favors Dim Light under Short-Day Conditions in Wild Canaries (Serinus and Times Its Activity Peaks to Early Dawn and Late canaria),” Voigt et al, 554 Dusk,” Rieger et al., 387. ‘Localization and Diurnal Expression of Melanopsin, “Gates and Oscillators Il: Zeitgebers and the Network Vertebrate Ancient Opsin, and Pituitary Adenylate Model of the Brain Clock,” Antie et ai., 14. Cyclase-Activating Peptide mRNA in a Teleost Retina,” “Hofbauer-Buchner Eyelet Affects Circadian Photosensitivity Grone et al., 558. and Coordinates TIM and PER Expression in Drosophila “PER1-Like Immunoreactivity in Oxytocin Cells of the Clock Neurons,” Veleri et al., 29. Hamster Hypothalamo-Neurohypophyseal System,” “Induction of Drosophila Behavioral and Molecular Tavakoli-Nezhad et al., 81 Circadian Rhythms by Temperature Steps in Constant Predicting Circadian Response to Abrupt Phase Shift: 6- Light,” Yoshii et al., 103. Sulphatoxymelatonin Rhythms in Rotating Shift “Interactions between Dopamine and Melatonin Organize Vorkers Offshore,” Gibbs et al., 368. Circadian Rhythmicity in the Retina of the Green The Presence of UC “Repeat sequences in the 3’-UTRs of Iguana,” Bartell et al., 515. Reporter Luciferase mRNAs Mediates Circadian Expres- “Light-Inducible and Clock-Controlled Expression of MAP sion and Can Determine Acrophase in Chlamydomonas rein Kinase Phosphatase 1 in Mouse Central Pacemaker Kiaulehn et al., 275 Neurons,” Doi et al., 127. “Principles of Professional Ethics for Scientists,’ “A Mathematical Model for the Kai-Protein—Based Lobachevsky, 195 Chemical Oscillator and Clock Gene Expression isier Methods of Studying Nonphotic Behavioral Rhythms in Cyanobacteria,” Miyoshi et al., 69. uinment in Mice,” Dallmann et al., 458. “Melanopsin-Dependent Nonvisual Responses: Evidence it, Light-Induced Rhythmicity in mPER-Deficient for Photopigment Bistability In Vivo,” Mure et al., 411. Bae and Weaver, 85 “Modeling the Electrophysiology of Suprachiasmatic \spects of Morningness-Eveningness Change with Nucleus Neurons,” Kim and Forger, 445 Vonk and Kupfer “Monitoring Circadian Rhythms of Individual Honey Bees in a Social Environment Reveals Social Influences on Reply: Postembryonic Ontogeny of Activity Rhythms,” Meshi Food Entrai ‘thodological Issue Landry and and Bloch, 343. “Multifactorial Regulation of Daily Rhythms in Expression of the Metabolically Responsive Gene Spotl4 in the Reviews: Mouse Liver,” Ishihara et al., 324. The 2006 Pittendrigh schoff Lecture: New Rolfeors O ld “Multiple Mechanisms Regulate Circadian Expression of the dian Clock,” Meyer and Gene for Cholesterol 7a-Hydroxylase (Cyp7a), a Key Enzyme in Hepatic Bile Acid Biosynthesis,” Noshiro Circadian Rhythms, et al., 299. Klerman and St. Hilaire, 91 “Non-Photic Modulation of Phase Shifts to Long Light Morin, 3 Pulses,” Antle et al., 524. idian Function,” Chen- “Phase Sensitivity Analysis of Circadian Rhythm Entrainment,” Gunawan and Doyle, 180 “Photoperiodic and Food Signals Control Expression Summaries: Pattern of the Clock Gene, Period, in the Linden Bug, Beyond | t Mod g: Combining Biophysical Pyrrhocoris apterus,” Dolezel et al., 33~ 5. periments to Move tl “A Quantitative Model of Sleep-Wake Dynamics Based on Forger et al., 200 the Physiology of the Brainstem Ascending Arousal dels of Neurobehavioral System,” Phillips and Robinson, 167 Dean et al., 246 “The Retina-Attached SCN Slice Preparation: An In Vitro on Modeling Rhythms, Mammalian Circadian Visual System,” Wong et al., 400 er and Larkin, 199 “Separate Sets of Cerebral Clock Neurons Are Responsible ipled Cellular Circadian for Light and Temperature Entrainment of Drosoplil tic Nucleus Indic et al., Circadian Locomotor Rhythms,” Miyasako et al., 115 Regulation and Synaptic Comments: Hippocampus,” Best et al., “Gate Cells See the Light,” Welsh, 26 “Is Food-Directed Behavior an Appropriate Measure of ns of Circadian Rhythms Circadian Entrainment to Restricted Daytime Feeding? rough Mathematical Gooley and Saper, 479.