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INDEX to JOURNAL OF BIOLOGICAL RHYTHMS Volume 21 Number 1 (February 2006), pp. 1-80 Number 2 (April 2006), pp. 81-156 Number 3 (June 2006), pp. 157-232 Number 4 (August 2006), pp. 233-324 Number 5 (October 2006), pp. 325-416 Number 6 (December 2006), pp. 417-524 Authors: DALLMANN, ROBERT, see Abraham, D. ABRAHAM, DIYA, ROBERT DALLMANN, STEPHAN DAMEROW, SEBASTIAN, see Oster, H. STEINLECHNER, URS ALBRECHT, GREGOR EICHELE, DAVIDSON, ALEC J., see Tataroglu, O. and HENRIK OSTER, “Restoration of Circadian Rhyth- DE HARO, LUCIANO, and SATCHIDANANDA PANDA, micity in Circadian Clock-Deficient Mice in Constant “Systems Biology of Circadian Rhythms: An Outlook,” Light,” 169. 507. ALBRECHT, URS, see Abraham, D. p—E PAULA, RENATO M., see Vitalini, M. W. ANGLES-PUJOLRAS, MONTSERRAT, see Chiesa, J. J. pe PAULA, RENATO M., ZACHARY A. LEWIS, ANDREW ARENDT, JOSEPHINE, BENITA MIDDLETON, PETER V. GREENE, KYUNG SUK SEO, LOUIS W. MORGAN, WILLIAMS, GAVIN FRANCIS, and CLAIRE LUKE, MICHAEL W. VITALINI, LINDSAY BENNETT, RICHARD “Sleep and Circadian Phase in a Ship’s Crew,” 214. H. GOMER, and DEBORAH BELL-PEDERSEN, “Two BAMERNI, MURAD, see Jolma, I. W. Circadian Timing Circuits in Neurospora crassa Cells BEERSMA, D. G. M., see Comas, M. Share Components and Regulate Distinct Rhythmic BEERY, ANNALIESE K., see Park, J. H. Processes,” 159. BELL-PEDERSEN, DEBORAH, see de Paula, R. M. DIEZ-NOGUERA, ANTONI, see Chiesa, J. J. BELL-PEDERSEN, DEBORAH, see Vitalini, M. W. DUDEK, SCOTT M., see Houl, J. H. BENDOVA, ZDENKA, see Kovacikova, Z. EDERY, ISAAC, see Chen, W.-F. BENNETT, LINDSAY, see de Paula, R. M. EICHELE, GREGOR, see Abraham, D. BENVENUTO, LUKE J., see Tataroglu, O. EICHELE, GREGOR, see Oster, H. BRADSHAW, WILLIAM E., see Mathias, D. EMERY, PATRICK, see Rush, B. L. BRAINARD, GEORGE C., see Jasser, S. A. ESKIN, ARNOLD, see Lyons, L. C. BUIJS, R. M., see Kalsbeek, A. FALKEID, GRETE, see Jolma, I. W. BUTLER, MATTHEW P., see Park, J. H. FORSMAN, P., see Lankinen, P. CAILOTTO, C., see Kalsbeek, A. FRANCIS, GAVIN, see Arendt, J. CAMBRAS, TRINITAT, see Chiesa, J. J. FREEMAN, DAVID A., BRETT J. W. TEUBNER, and CHEN, WEN-FENG, JOHN MAJERCAK, and ISAAC BRUCE D. GOLDMAN, “The Thalamic Intergeniculate EDERY, “Clock-Gated Photic Stimulation of Timeless Leaflet Mediates Locomotor Activity-Induced Reversal Expression at Cold Temperatures and Seasonal of Phenotype in Photoperiod Nonresponsive Siberian Adaptation in Drosophila,” 256. Hamsters,” 206. CHIESA, JUAN J., MONTSERRAT ANGLES-PUJOLRAS, FULLER, CHARLES A., see Fuller, P. M. ANTONI DIEZ-NOGUERA, and TRINITAT CAM- FULLER, PATRICK M., and CHARLES A. FULLER, BRAS, “History-Dependent Changes in Entrainment of “Genetic Evidence for a Neurovestibular Influence on the Activity Rhythm in the Syrian Hamster (Mesocricetus the Mammalian Circadian Pacemaker,” 177. auratus),” 45. FULLER, PATRICK M., JOSHUA J. GOOLEY, and CLIF- COMAS, M., D. G. M. BEERSMA, K. SPOELSTRA, and S. FORD B. SAPER, “Neurobiology of the Sleep-Wake DAAN, “Phase and Period Responses of the Circadian Cycle: Sleep Architecture, Circadian Regulation, and System of Mice (Mus musculus) to Light Stimuli of Regulatory Feedback,” 482. Different Duration,” 362. GANDER, PHILIPPA H., see Paine, S.-J. COSTANTINI, RUTH M., see Park, J. H. GIEBULTOWICZ, JADWIGA M., see Rush, B. L. DAAN, S., see Comas, M. GOLDMAN, BRUCE D., see Freeman, D. A. JOURNAL OF BIOLOGICAL RHYTHMS, Vol. 21 No. 6, December 2006 519-523 © 2006 Sage Publications 520 JOURNAL OF BIOLOGICAL RHYTHMS / December 2006 GOMER, RICHARD H., see de Paula, R. M. KULA, ELZBIETA, EDWIN S. LEVITAN, ELZBIETA GOOLEY, JOSHUA J., see Fuller, P. M. PYZA, and MICHAEL ROSBASH, “PDF Cycling in the GORMAN, MICHAEL R., and NICHOLAS A. STEELE, Dorsal Protocerebrum of the Drosophila Brain Is Not “Phase Angle Difference Alters Coupling Relations of Necessary for Circadian Clock Function,” 104. Functionally Distinct Circadian Oscillators Revealed by KUTSUNA, SHINSUKE, see Takai, N. Rhythm Splitting,” 195. LA FLEUR, S. E., see Kalsbeek, A. GREENE, ANDREW V.,, see de Paula, R. M. LAKIN-THOMAS, PATRICIA L., “Transcriptional Feedback GURDZIEL, KATHERINE, see Indic, P. Oscillators: Maybe, Maybe Not...” [Review], 83. HALL, JANET E., see Lavoie, H. B. LAMBERT, CHRISTOPHER M., and DAVID R. WEAVER, HANIFIN, JOHN P., see Jasser, S. A. “Peripheral Gene Expression Rhythms in a Diurnal HARDIN, PAUL E., see Houl, J. H. Rodent” [Letter], 77. HOLZAPFEL, CHRISTINA M., see Mathias, D. LANKINEN, P., and P. FORSMAN, “Independence of HOUL, JERRY H., WANGJIE YU, SCOTT M. DUDEK, and Genetic Geographical Variation between Photoperiodic PAULE. HARDIN, “Drosophila CLOCK Is Constitutively Diapause, Circadian Eclosion Rhythm, and Thr-Gly Expressed in Circadian Oscillator and Non-Oscillator Repeat Region of the Period Gene in Drosophila littoralis,” 3. Cells,” 93. LAVOIE, HELENE B., ERICA E. MARSH, and JANET E. HOWLADER, GITANJALI, DHANASHREE A. PARANJPE, HALL, “Absence of Apparent Circadian Rhythms of and VIJAY KUMAR SHARMA, “Non-Ventral Lateral Gonadotropins and Free a-Subunit in Postmenopausal Neuron-Based Non-PDF-Mediated Clocks Control Cir- Women: Evidence for Distinct Regulation Relative to cadian Egg-Laying Rhythm in Drosophila melanogaster,” 13. Other Hormonal Rhythms,” 58. HUT, ROELOF A., see Oster, H. LEISE, TANYA, and HAVA SIEGELMANN, “Dynamics of ICHIHARA, NAOYUKL, see Shao, Q.-M. a Multistage Circadian System,” 314. ICHIHARA, NAOYUKI, see Trang, L. T. D. LEVITAN, EDWIN S., see Kula, E. IKEUCHI, SHINGO, see Takai, N. LEWIS, ZACHARY A., see de Paula, R. M. ILLNEROVA, HELENA, see Kovacikova, Z. LUKE, CLAIRE, see Arendt, J. INDIC, PREMANANDA, KATHERINE GURDZIEL, LYONS, LISA C., OLIVER RAWASHDEH, and ARNOLD RICHARD E. KRONAUER, and ELIZABETH B. KLER- ESKIN, “Non-Ocular Circadian Oscillators and Photore- MAN, “Development of a Two-Dimension Manifold to ceptors Modulate Long Term Memory Formation in Represent High Dimension Mathematical Models of the Aplysia,” 245. Intracellular Mammalian Circadian Clock,” MAJERCAK, JOHN, see Chen, W.-F. IWAIL, SACHIO, see Trang, L. T. D. MAKIO TAKEDA, see Shao, Q.-M. JASSER, SAMAR A., JOHN P. HANIFIN, MARK D. ROL- MALAN, ANDRE, see Monecke, S. LAG, and GEORGE C. BRAINARD, “Dim Light Adap- MANABE, KATSUSHL, see Takai, N. tation Attenuates Acute Melatonin Suppression in MARSH, ERICA E., see Lavoie, H. B. Humans,” 394. MARTIN, LYNN B. II, see Weil, Z. M. JOHNSON, CARL HIRSCHIE, see Woelfle, M. A. MATHIAS, DERRICK, LAURA K. REED, WILLIAM E. JOLMA, INGUNN W., GRETE FALKEID, MURAD BRADSHAW, and CHRISTINA M. HOLZAPFEL, BAMERNI, and PETER RUOFF, “Lithium Leads to an “Evolutionary Divergence of Circadian and Photoperi- Increased FRQ Protein Stability and to a Partial Loss of odic Phenotypes in the Pitcher-Plant Mosquito, Wyeomyia Temperature Compensation in the Neurospora Circadian smithii,” 132. Clock,” 327. McMAHON, DOUGLAS G., see Kuhlman, S. J. JUD, CORINNE, and URS ALBRECHT, “Circadian MEIER, JOHANNA H., see Rohling, J. Rhythms in Murine Pups Develop in Absence of a MENAKER, MICHAEL, see Tataroglu, O. Functional Maternal Circadian Clock,” 149. MIDDLETON, BENITA, see Arendt, J. KALSBEEK, A., I. F. PALM, S. E. LA FLEUR, F.A,J.L. MISTLBERGER, RALPH E., [AN C. WEBB, MELISSA M. SCHEER, S. PERREAU-LENZ, M. RUITER, F. KREIER, SIMON, DIERDRE TSE, and CATHY SU, “Effects of C. CAILOTTO, and R. M. BUIJS, “SCN Outputs and the Food Deprivation on Locomotor Activity, Plasma Hypothalamic Balance of Life,” 458. Glucose, and Circadian Clock Resetting in Syrian KAUFFMAN, ALEXANDER S., see Park, J. H. Hamsters,” 33. KLERMAN, ELIZABETH B., see Indic, P. MITA, KAZUEL see Trang, L. T. D. KOVACIKOVA, ZUZANA, MARTIN SLADEK, ZDENKA MOCHIZUKI, ATSUSHI, see Takigawa-[mamura, H. BENDOVA, HELENA ILLNEROVA, and ALENA MONECKE, STEFANIE, ANDRE MALAN, and SUMOVA, “Expression of Clock and Clock-Driven FRANZISKA WOLLNIK, “Asymmetric Control of Short Genes in the Rat Suprachiasmatic Nucleus during Late Day Response in European Hamsters,” 290. Fetal and Early Postnatal Development,” 140. MORGAN, LOUIS W., see de Paula, R. M. KREIER, F., see Kalsbeek, A. MURAD, ALEJANDRO, see Rush, B. L. KRONAUER, RICHARD E., see Indic, P. NELSON, RANDY J., see Weil, Z. M. KUHLMAN, SANDRA J., and DOUGLAS G. MCMAHON, OGILVIE, MALCOLM D., see Sollars, P. J. “Encoding the Ins and Outs of Circadian Pacemaking,” OSTER, HENRIK, SEBASTIAN DAMEROW, ROELOF A. 470. HUT, and GREGOR EICHELE, “Transcriptional Profiling INDEX 521 in the Adrenal Gland Reveals Circadian Regulation of STRATMANN, MARKUS, and UELI SCHIBLER, “Proper- Hormone Biosynthesis Genes and Nucleosome Assembly ties, Entrainment, and Physiological Functions of Genes,” 350. Mammalian Peripheral Oscillators,” 494. OSTER, HENRIK, see Abraham, D. SU, CATHY, see Mistlberger, R. E. PAINE, SARAH-JANE, PHILIPPA H. GANDER, and SUMOVA, ALENA, see Kovacikova, Z. NOEMIE TRAVIER, “The Epidemiology of Morningness/ TAGHERT, PAUL H., and ORIE T. SHAFER, “Mechanisms Eveningness: Influence of Age, Gender, Ethnicity, and of Clock Output in the Drosophila Circadian Pacemaker Socioeconomic Factors in Adults (30-49 Years),” 68. System,” 445. PALM, I. F., see Kalsbeek, A. TAKAI, NAOKI, SHINGO IKEUCHI, KATSUSHI MANABE, PANDA, SATCHIDANANDA, see De Haro, L. and SHINSUKE KUTSUNA, “Expression of the Circadian PARANJPE, DHANASHREE A., see Howlader, G. Clock- Related Gene pex in Cyanobacteria Increases in PARK, JIN HO, ALEXANDER S. KAUFFMAN, MATTHEW Darkness and Is Required to Delay the Clock,” 235. J. PAUL, MATTHEW P. BUTLER, ANNALIESE K. TAKEDA, MAKIO, see Trang, L. T. D. BEERY, RUTH M. COSTANTINI, and IRVING ZUCKER, TAKIGAWA-IMAMURA, HISAKO, and ATSUSHI “Interval Timer Control of Puberty in Photoinhibited MOCHIZUKI, “Predicting Regulation of the Phospho- Siberian Hamsters,” 373. rylation Cycle of KaiC Clock Protein Using Mathemati- PARK, WILLIAM D., see Vitalini, M. W. cal Analysis,” 405. PAUL, MATTHEW J., see Park, J. H. TATAROGLU, OZGUR, ALEC J. DAVIDSON, LUKE J. PERREAU-LENZ, S., see Kalsbeek, A. BENVENUTO, and MICHAEL MENAKER, “The PICKARD, GARY E., see Sollars, P. J. Methamphetamine-Sensitive Circadian Oscillator PUPIQUE, M., “Updating Faculty Evaluations” [Letter], 155. (MASCO) in Mice,” 185. PYZA, ELZBIETA, see Kula, E. TEUBNER, BRETT J. W., see Freeman, D. A. RAWASHDEH, OLIVER, see Lyons, L. C. TOMIOKA, KENJI, see Uemura, H. REED, LAURA K., see Mathias, D. TRANG, LE THI DIEU, HANA SEHADOVA, NAOYUKI ROHLING, JOS, LEX WOLTERS, and JOHANNA H. MEI- ICHIHARA, SACHIO IWAI, KAZUEI MITA, and JER, “Simulation of Day-Length Encoding in the SCN: MAKIO TAKEDA, “Casein Kinases I of the Silkworm, From Single-Cell to Tissue-Level Organization,” 301. Bombyx mori: Their Possible Roles in Circadian Timing ROLLAG, MARK D., see Jasser, S. A. and Developmental Determination,” 335. ROSBASH, MICHAEL, see Kula, E. TRAVIER, NOEMIE, see Paine, S.-J. RUITER, M., see Kalsbeek, A. TSE, DIERDRE, see Mistlberger, R. E. RUOFF, PETER, see Jolma, I. W. UEMURA, HIROYUKI, and KENJI TOMIOKA, “Postem- RUSH, BRANDY L., ALEJANDRO MURAD, PATRICK bryonic Changes in Circadian Photo-Responsiveness EMERY, and JADWIGA M. GIEBULTOWICZ, “Ectopic Rhythms of Optic Lobe Interneurons in the Cricket CRYPTOCHROME Renders TIM Light Sensitive in the Gryllus bimaculatus,” 279. Drosophila Ovary,” 272. URS ALBRECHT, see Jud, C. SAPER, CLIFFORD B., see Fuller, P. M. VITALINI, MICHAEL W., RENATO M. ve PAULA, SCHEER, F.A.J.L., see Kalsbeek, A. WILLIAM D. PARK, and DEBORAH BELL-PEDERSEN, SCHIBLER, UELI, see Stratmann, M. “The Rhythms of Life: Circadian Output Pathways in SEHADOVA, HANA, see Shao, Q.-M. Neurospora,” 432. SEHADOVA, HANA, see Trang, L. T. D. VITALINI, MICHAEL W., see de Paula, R. M. SEHNAL, FRANTISEK, see Shao, Q.-M. WEAVER, DAVID R., see Lambert, C. M. SEO, KYUNG SUK, see de Paula, R. M. WEBB, IAN C., see Mistlberger, R. E. SHAFER, ORIE T., see Taghert, P. H. WEIL, ZACHARY M., LYNN B. MARTIN IL, and RANDY SHAO, QI-MIAO, HANA SEHADOVA, NAOYUKI ICHI- J. NELSON, “Photoperiod Differentially Affects Immune HARA, FRANTISEK SEHNAL, and MAKIO TAKEDA, Function and Reproduction in Collared Lemmings “Immunoreactivities to Three Circadian Clock Proteins (Dicrostonyx groenlandicus),” 384. in Two Ground Crickets Suggest Interspecific Diversity WILLIAMS, PETER, see Arendt, J. of the Circadian Clock Structure,” 118. WOELFLE, MARK A., and CARL HIRSCHIE JOHNSON, SHARMA, VIJAY KUMAR, see Howlader, G. “No Promoter Left Behind: Global Circadian Gene SIEGELMANN, HAVA, see Leise, T. Expression in Cyanobacteria,” 419. SIMON, MELISSA M., see Mistlberger, R. E. WOLLNIK, FRANZISKA, see Monecke, S. SIMPSON, ANNE M., see Sollars, P. J. WOLTERS, LEX, see Rohling, J. SLADEK, MARTIN, see Kovacikova, Z. YU, WANGJIE, see Houl, J. H. SOLLARS, PATRICIA J., MALCOLM D. OGILVIE, ZUCKER, IRVING, see Park, J. H. ANNE M. SIMPSON, and GARY E. PICKARD, “Photic Entrainment Is Altered in the 5-HT,, Receptor Knockout Articles: Mouse,” 21. “Absence of Apparent Circadian Rhythms of Gonadotropins SPOELSTRA, K. see Comas, M. and Free o-Subunit in Postmenopausal Women: Evidence STEELE, NICHOLAS A., see Gorman, M. R. for Distinct Regulation Relative to Other Hormonal STEINLECHNER, STEPHAN, see Abraham, D. Rhythms,” Lavoie et al., 58 522 JOURNAL OF BIOLOGICAL RHYTHMS / December 2006 “Asymmetric Control of Short Day Response in European “No Promoter Left Behind: Global Circadian Gene Hamsters,” Monecke et al., 290. Expression in Cyanobacteria,” Woelfle and Johnson, “Casein Kinases I of the Silkworm, Bombyx mori: Their 419. Possible Roles in Circadian Timing and Developmental “Non-Ocular Circadian Oscillators and Photoreceptors Determination,” Trang et al., 335. Modulate Long Term Memory Formation in Aplysia,” “Circadian Rhythms in Murine Pups Develop in Absence Lyons et al., 245. of a Functional Maternal Circadian Clock,” Jud and “Non-Ventral Lateral Neuron-Based Non-PDF-Mediated Albrecht, 149. Clocks Control Circadian Egg-Laying Rhythm in “Clock-Gated Photic Stimulation of Timeless Expression Drosophila melanogaster,” Howlader et al., 13. at Cold Temperatures and Seasonal Adaptation in “PDF Cycling in the Dorsal Protocerebrum of the Drosophila,” Chen et al., 256. Drosophila Brain Is Not Necessary for Circadian Clock “Development of a Two-Dimension Manifold to Represent Function,” Kula et al., 104. High Dimension Mathematical Models of the Intracellu- “Phase and Period Responses of the Circadian System of lar Mammalian Circadian Clock,” Indic et al. , a99e9. Mice (Mus musculus) to Light Stimuli of Different “Dim Light Adaptation Attenuates Acute Melatonin Duration,” Comas et al., 362. Suppression in Humans,” Jasser et al., 394. “Phase Angle Difference Alters Coupling Relations of “Drosophila CLOCK Is Constitutively Expressed in Circa- Functionally Distinct Circadian Oscillators Revealed by dian Oscillator and Non-Oscillator Cells,” Houl et al., 93. Rhythm Splitting,” Gorman and Steele, 195. “Dynamics of a Multistage Circadian System,” Leise and “Photic Entrainment Is Altered in the 5-HT,, Receptor Siegelmann, 314. Knockout Mouse,” Sollars et al., 21. “Ectopic CRYPTOCHROME Renders TIM Light Sensitive “Photoperiod Differentially Affects Immune Function and in the Drosophila Ovary,” Rush et al., 272. Reproduction in Collared Lemmings (Dicrostonyx groen- “Effects of Food Deprivation on Locomotor Activity, landicus),” Weil et al., 384. Plasma Glucose, and Circadian Clock Resetting in “Postembryonic Changes in Circadian Photo-Responsiveness Syrian Hamsters,” Mistlberger et al., 33. Rhythms of Optic Lobe Interneurons in the Cricket Gryllus “Encoding the Ins and Outs of Circadian Pacemaking,” bimaculatus,”” Uemura and Tomioka, 279. Kuhlman and McMahon, 470. “Predicting Regulation of the Phosphorylation Cycle of “Evolutionary Divergence of Circadian and Photoperiodic KaiC Clock Protein Using Mathematical Analysis,” Phenotypes in the Pitcher-Plant Mosquito, Wyeomyia Takigawa-Imamura and Mochizuki, 405. smithii,” Mathias et al., 132. “Properties, Entrainment, and Physiological Functions of “Expression of Clock and Clock-Driven Genes in the Rat Mammalian Peripheral Oscillators,” Stratmann and Suprachiasmatic Nucleus during Late Fetal and Early Schibler, 494. Postnatal Development,” Kovacikova et al., 140. “Restoration of Circadian Rhythmicity in Circadian Clock- “Expression of the Circadian Clock—Related Gene pex in Deficient Mice in Constant Light,” Abraham et al., 169. Cyanobacteria Increases in Darkness and Is Required to “SCN Outputs and the Hypothalamic Balance of Life,” Delay the Clock,” Takai et al., 235. Kalsbeek et al., 458. “Genetic Evidence for a Neurovestibular Influence on the “Simulation of Day-Length Encoding in the SCN: From Single- Mammalian Circadian Pacemaker,” Fuller and Fuller, 177. Cell to Tissue-Level Organization,” Rohling et al., 301. “History-Dependent Changes in Entrainment of the “Sleep and Circadian Phase in a Ship’s Crew,” Arendt Activity Rhythm in the Syrian Hamster (Mesocricetus et al., 214. auratus),” Chiesa et al., 45. “Systems Biology of Circadian Rhythms: An Outlook,” De “Immunoreactivities to Three Circadian Clock Proteins in Haro and Panda, 507. Two Ground Crickets Suggest Interspecific Diversity of “The Epidemiology of Morningness/Eveningness: Influ- the Circadian Clock Structure,” Shao et al., 118. ence of Age, Gender, Ethnicity, and Socioeconomic “Independence of Genetic Geographical Variation between Factors in Adults (30-49 Years),” Paine et al., 68 Photoperiodic Diapause, Circadian Eclosion Rhythm, “The Methamphetamine-Sensitive Circadian Oscillator and Thr-Gly Repeat Region of the Period Gene in (MASCO) in Mice,” Tataroglu et al., 185. Drosophila littoralis,” Lankinen and Forsman, 3. “The Rhythms of Life: Circadian Output Pathways in “Interval Timer Control of Puberty in Photoinhibited Neurospora,” Vitalini et al., 432. Siberian Hamsters,” Park et al., 373. “The Thalamic Intergeniculate Leaflet Mediates Locomotor “Lithium Leads to an Increased FRQ Protein Stability and Activity—Induced Reversal of Phenotype in Photoperiod to a Partial Loss of Temperature Compensation in the Nonresponsive Siberian Hamsters,” Freeman et al., 206. Neurospora Circadian Clock,” Jolma et al., 327. “Transcriptional Profiling in the Adrenal Gland Reveals “Mechanisms of Clock Output in the Drosophila Circadian Circadian Regulation of Hormone Biosynthesis Genes Pacemaker System,” Taghert and Shafer, 445. and Nucleosome Assembly Genes,” Oster et al., 350. “Neurobiology of the Sleep-Wake Cycle: Sleep Architecture, “Two Circadian Timing Circuits in Neurospora crassa Cells Circadian Regulation, and Regulatory Feedback,” Fuller Share Components and Regulate Distinct Rhythmic et al., 482. Processes,” de Paula et al., 159. INDEX 523 Letters: Reviews: “Peripheral Gene Expression Rhythms in a Diurnal “Transcriptional Feedback Oscillators: Maybe, Maybe Rodent,” Lambert and Weaver, 77. Not...,” Lakin-Thomas, 83. “Updating Faculty Evaluations,” Pupique, 155. Meeting: “Society for Research on Biological Rhythms, 10th Biannual Meeting: May 21-25, 2006,” 156.

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