Circadiane Rhythmik (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "Circadiane Rhythmik" in German language version.

refsWebsite

Global rank German rank

15doi.org

2^nd place

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14zdb-katalog.de

123^rd place

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12nih.gov

4^th place

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2sciencemag.org

857^th place

511^th place

1nobelprize.org

301^st place

369^th place

1doccheck.com

9,231^st place

597^th place

1elsevier.com

610^th place

521^st place

1pnas.org

1,293^rd place

678^th place

1web.archive.org

1^st place

1ias.ac.in

6,086^th place

low place

1cshlp.org

low place

1telegraph.co.uk

30^th place

92^nd place

1focus.de

460^th place

28^th place

1uniprot.org

5,673^rd place

995^th place

1thewep.org

low place

1spiegel.de

66^th place

4^th place

1wkhealth.com

low place

cshlp.org

learnmem.cshlp.org

Harini C. Krishnan, Lisa C. Lyons: Synchrony and desynchrony in circadian clocks: impacts on learning and memory. In: Learning & Memory. Band 22, Nr. 9, 1. September 2015, ISSN 1072-0502, S. 426–437, doi:10.1101/lm.038877.115, PMID 26286653 (cshlp.org [abgerufen am 30. Januar 2018]).

doccheck.com

flexikon.doccheck.com

Vgl. Zirkadian im DocCheck Flexikon. Dieselbe Angabe zur Wortbildung findet sich beim Stichwort zirkadian im Pschyrembel.

doi.org

F. Halberg, G. Cornélissen, G. Katinas, E. V. Syutkina, R. B. Sothern, R. Zaslavskaya, F. Halberg, Y. Watanabe, O. Schwartzkopff, K. Otsuka, R. Tarquini, P. Frederico, J. Siggelova: Transdisciplinary unifying implications of circadian findings in the 1950s. In: Journal of circadian rhythms. Bd. 1, Nummer 1, Oktober 2003, S. 2, doi:10.1186/1740-3391-1-2, PMID 14728726, PMC 317388 (freier Volltext): Siehe Abschnitt When and why did you create the term “circadian”?
Ray Zhang, Nicholas F. Lahens, Heather I. Ballance, Michael E. Hughes, John B. Hogenesch: A circadian gene expression atlas in mammals: Implications for biology and medicine. In: Proceedings of the National Academy of Sciences. Band 111, Nr. 45, 11. November 2014, S. 16219–16224, doi:10.1073/pnas.1408886111.
Guy Bloch: The social clock of the honeybee. In: Journal of Biological Rhythms. Band 25, Nr. 5, Oktober 2010, ISSN 1552-4531, S. 307–317, doi:10.1177/0748730410380149, PMID 20876811.
Martha Merrow, Till Roenneberg, Giuseppe Macino, Lisa Franchi: A fungus among us: the Neurospora crassa circadian system. In: Seminars in Cell & Developmental Biology. Band 12, Nr. 4, S. 279–285, doi:10.1006/scdb.2001.0255 (elsevier.com [abgerufen am 30. Januar 2018]).
Lili Zhou, Caitlyn Miller, Loren J. Miraglia, Angelica Romero, Ludovic S. Mure, Satchidananda Panda, and Steve A. Kay: A genome-wide microRNA screen identifies the microRNA-183/96/182 cluster as a modulator of circadian rhythms. In: Proc Natl Acad Sci. 118. Jahrgang, Nr. 1, 5. Januar 2021, S. e2020454118, doi:10.1073/pnas.2020454118 (pnas.org): „In this phenotype-driven study, we started from a genome-wide cell-based functional screen and identified miRNAs that modulate circadian rhythms. The majority of the hits lengthened the period, but a very small number of hits were found to shorten the period.“
Christoph Scheiermann, Yuya Kunisaki, Paul S. Frenette: Circadian control of the immune system. In: Nature Reviews Immunology. Band 13, Nr. 3, 2013, ISSN 1474-1741, S. 190–198, doi:10.1038/nri3386.
Joseph Bass, Mitchell A. Lazar: Circadian time signatures of fitness and disease. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 994–999, doi:10.1126/science.aah4965, PMID 27885004 (sciencemag.org [abgerufen am 30. Januar 2018]).
Harini C. Krishnan, Lisa C. Lyons: Synchrony and desynchrony in circadian clocks: impacts on learning and memory. In: Learning & Memory. Band 22, Nr. 9, 1. September 2015, ISSN 1072-0502, S. 426–437, doi:10.1101/lm.038877.115, PMID 26286653 (cshlp.org [abgerufen am 30. Januar 2018]).
Giulia Zerbini, Martha Merrow: Time to learn: How chronotype impacts education. In: PsyCh Journal. Band 6, Nr. 4, Dezember 2017, ISSN 2046-0260, S. 263–276, doi:10.1002/pchj.178, PMID 28994246.
Cameron S. McAlpine, Filip K. Swirski: Circadian Influence on Metabolism and Inflammation in Atherosclerosis. In: Circulation Research. Band 119, Nr. 1, 24. Juni 2016, ISSN 0009-7330, S. 131–141, doi:10.1161/circresaha.116.308034, PMID 27340272.
Saurabh Sahar, Paolo Sassone-Corsi: Metabolism and cancer: the circadian clock connection. In: Nature Reviews Cancer. Band 9, Nr. 12, 2009, ISSN 1474-1768, S. 886–896, doi:10.1038/nrc2747.
Selma Masri, Kenichiro Kinouchi, Paolo Sassone-Corsi: Circadian clocks, epigenetics, and cancer. In: Current Opinion in Oncology. Band 27, Nr. 1, S. 50–56, doi:10.1097/cco.0000000000000153 (wkhealth.com [abgerufen am 30. Januar 2018]).
Christoph A. Thaiss u. a.: Transkingdom Control of Microbiota Diurnal Oscillations Promotes Metabolic Homeostasis. In: Cell. Bd. 159, Nr. 3, 2014, S. 514–529, doi:10.1016/j.cell.2014.09.048.
Erik S. Musiek, David M. Holtzman: Mechanisms linking circadian clocks, sleep, and neurodegeneration. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 1004–1008, doi:10.1126/science.aah4968, PMID 27885006 (sciencemag.org [abgerufen am 30. Januar 2018]).
Dominic Landgraf, Michael J. McCarthy, David K. Welsh: Circadian Clock and Stress Interactions in the Molecular Biology of Psychiatric Disorders. In: Current Psychiatry Reports. Band 16, Nr. 10, 1. Oktober 2014, ISSN 1523-3812, S. 483, doi:10.1007/s11920-014-0483-7.

elsevier.com

linkinghub.elsevier.com

Martha Merrow, Till Roenneberg, Giuseppe Macino, Lisa Franchi: A fungus among us: the Neurospora crassa circadian system. In: Seminars in Cell & Developmental Biology. Band 12, Nr. 4, S. 279–285, doi:10.1006/scdb.2001.0255 (elsevier.com [abgerufen am 30. Januar 2018]).

focus.de

Swab test to tell if you’re a late sleeper or early riser. In: The Telegraph. 6. Juni 2008.
Lerchen, Eulen und Normaltyp. In: focus-online. 16. September 2010
Universal Protein Resource (UniProt): Fachwissenschaftliche Beschreibung der Eigenschaften des Gens PER2 beim Menschen: „Defects in PER2 are a cause of familial advanced sleep-phase syndrome (FASPS). FASPS is characterized by very early sleep onset and offset. Individuals are ‘morning larks’ with a 4 hours advance of the sleep, temperature and melatonin rhythms.“

ias.ac.in

repository.ias.ac.in

A. J. Koilray, G. Marimuthu, K. Natarajan, S. Saravanan, P. Maran, M. Hsu: Fungal diversity inside caves of Southern India. (Memento vom 21. März 2013 im Internet Archive) In: Current Science. Bd. 77, Nr. 8, 1999, S. 1081–1084, Volltext (PDF).

nih.gov

ncbi.nlm.nih.gov

F. Halberg, G. Cornélissen, G. Katinas, E. V. Syutkina, R. B. Sothern, R. Zaslavskaya, F. Halberg, Y. Watanabe, O. Schwartzkopff, K. Otsuka, R. Tarquini, P. Frederico, J. Siggelova: Transdisciplinary unifying implications of circadian findings in the 1950s. In: Journal of circadian rhythms. Bd. 1, Nummer 1, Oktober 2003, S. 2, doi:10.1186/1740-3391-1-2, PMID 14728726, PMC 317388 (freier Volltext): Siehe Abschnitt When and why did you create the term “circadian”?
Y. Ouyang, C. R. Andersson, T. Kondo, S. S. Golden, C. H. Johnson: Resonating circadian clocks enhance fitness in cyanobacteria. In: PNAS. Band 95, Nr. 15, 21. Juli 1998, ISSN 0027-8424, S. 8660–8664, PMID 9671734.
Guy Bloch: The social clock of the honeybee. In: Journal of Biological Rhythms. Band 25, Nr. 5, Oktober 2010, ISSN 1552-4531, S. 307–317, doi:10.1177/0748730410380149, PMID 20876811.
M. Ishiura, S. Kutsuna, S. Aoki, H. Iwasaki, C. R. Andersson: Expression of a gene cluster kaiABC as a circadian feedback process in cyanobacteria. In: Science (New York, N.Y.). Band 281, Nr. 5382, 4. September 1998, ISSN 0036-8075, S. 1519–1523, PMID 9727980.
C. S. Pittendrigh: Circadian rhythms and the circadian organization of living systems. In: Cold Spring Harbor Symposia on Quantitative Biology. Band 25, 1960, ISSN 0091-7451, S. 159–184, PMID 13736116.
Joseph Bass, Mitchell A. Lazar: Circadian time signatures of fitness and disease. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 994–999, doi:10.1126/science.aah4965, PMID 27885004 (sciencemag.org [abgerufen am 30. Januar 2018]).
Harini C. Krishnan, Lisa C. Lyons: Synchrony and desynchrony in circadian clocks: impacts on learning and memory. In: Learning & Memory. Band 22, Nr. 9, 1. September 2015, ISSN 1072-0502, S. 426–437, doi:10.1101/lm.038877.115, PMID 26286653 (cshlp.org [abgerufen am 30. Januar 2018]).
Rosa Levandovski, Etianne Sasso, Maria Paz Hidalgo: Chronotype: a review of the advances, limits and applicability of the main instruments used in the literature to assess human phenotype. In: Trends in Psychiatry and Psychotherapy. Band 35, Nr. 1, 2013, ISSN 2237-6089, S. 3–11, PMID 25923181.
Giulia Zerbini, Martha Merrow: Time to learn: How chronotype impacts education. In: PsyCh Journal. Band 6, Nr. 4, Dezember 2017, ISSN 2046-0260, S. 263–276, doi:10.1002/pchj.178, PMID 28994246.
Cameron S. McAlpine, Filip K. Swirski: Circadian Influence on Metabolism and Inflammation in Atherosclerosis. In: Circulation Research. Band 119, Nr. 1, 24. Juni 2016, ISSN 0009-7330, S. 131–141, doi:10.1161/circresaha.116.308034, PMID 27340272.
E. S. Schernhammer, F. Laden, F. E. Speizer, W. C. Willett, D. J. Hunter: Rotating night shifts and risk of breast cancer in women participating in the nurses’ health study. In: Journal of the National Cancer Institute. Band 93, Nr. 20, 17. Oktober 2001, ISSN 0027-8874, S. 1563–1568, PMID 11604480.
Erik S. Musiek, David M. Holtzman: Mechanisms linking circadian clocks, sleep, and neurodegeneration. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 1004–1008, doi:10.1126/science.aah4968, PMID 27885006 (sciencemag.org [abgerufen am 30. Januar 2018]).

nobelprize.org

The 2017 Nobel Prize in Physiology or Medicine – Press Release. Abgerufen am 1. Februar 2018.

pnas.org

Lili Zhou, Caitlyn Miller, Loren J. Miraglia, Angelica Romero, Ludovic S. Mure, Satchidananda Panda, and Steve A. Kay: A genome-wide microRNA screen identifies the microRNA-183/96/182 cluster as a modulator of circadian rhythms. In: Proc Natl Acad Sci. 118. Jahrgang, Nr. 1, 5. Januar 2021, S. e2020454118, doi:10.1073/pnas.2020454118 (pnas.org): „In this phenotype-driven study, we started from a genome-wide cell-based functional screen and identified miRNAs that modulate circadian rhythms. The majority of the hits lengthened the period, but a very small number of hits were found to shorten the period.“

sciencemag.org

science.sciencemag.org

Joseph Bass, Mitchell A. Lazar: Circadian time signatures of fitness and disease. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 994–999, doi:10.1126/science.aah4965, PMID 27885004 (sciencemag.org [abgerufen am 30. Januar 2018]).
Erik S. Musiek, David M. Holtzman: Mechanisms linking circadian clocks, sleep, and neurodegeneration. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 1004–1008, doi:10.1126/science.aah4968, PMID 27885006 (sciencemag.org [abgerufen am 30. Januar 2018]).

spiegel.de

Wer später lernt, ist besser drauf. auf: Spiegel online. 15. Dezember 2008.

telegraph.co.uk

Swab test to tell if you’re a late sleeper or early riser. In: The Telegraph. 6. Juni 2008.
Lerchen, Eulen und Normaltyp. In: focus-online. 16. September 2010
Universal Protein Resource (UniProt): Fachwissenschaftliche Beschreibung der Eigenschaften des Gens PER2 beim Menschen: „Defects in PER2 are a cause of familial advanced sleep-phase syndrome (FASPS). FASPS is characterized by very early sleep onset and offset. Individuals are ‘morning larks’ with a 4 hours advance of the sleep, temperature and melatonin rhythms.“

thewep.org

MCTQ. Abgerufen am 1. Februar 2018 (britisches Englisch).

uniprot.org

Swab test to tell if you’re a late sleeper or early riser. In: The Telegraph. 6. Juni 2008.
Lerchen, Eulen und Normaltyp. In: focus-online. 16. September 2010
Universal Protein Resource (UniProt): Fachwissenschaftliche Beschreibung der Eigenschaften des Gens PER2 beim Menschen: „Defects in PER2 are a cause of familial advanced sleep-phase syndrome (FASPS). FASPS is characterized by very early sleep onset and offset. Individuals are ‘morning larks’ with a 4 hours advance of the sleep, temperature and melatonin rhythms.“

web.archive.org

A. J. Koilray, G. Marimuthu, K. Natarajan, S. Saravanan, P. Maran, M. Hsu: Fungal diversity inside caves of Southern India. (Memento vom 21. März 2013 im Internet Archive) In: Current Science. Bd. 77, Nr. 8, 1999, S. 1081–1084, Volltext (PDF).

wkhealth.com

content.wkhealth.com

Selma Masri, Kenichiro Kinouchi, Paolo Sassone-Corsi: Circadian clocks, epigenetics, and cancer. In: Current Opinion in Oncology. Band 27, Nr. 1, S. 50–56, doi:10.1097/cco.0000000000000153 (wkhealth.com [abgerufen am 30. Januar 2018]).

zdb-katalog.de

Y. Ouyang, C. R. Andersson, T. Kondo, S. S. Golden, C. H. Johnson: Resonating circadian clocks enhance fitness in cyanobacteria. In: PNAS. Band 95, Nr. 15, 21. Juli 1998, ISSN 0027-8424, S. 8660–8664, PMID 9671734.
Guy Bloch: The social clock of the honeybee. In: Journal of Biological Rhythms. Band 25, Nr. 5, Oktober 2010, ISSN 1552-4531, S. 307–317, doi:10.1177/0748730410380149, PMID 20876811.
M. Ishiura, S. Kutsuna, S. Aoki, H. Iwasaki, C. R. Andersson: Expression of a gene cluster kaiABC as a circadian feedback process in cyanobacteria. In: Science (New York, N.Y.). Band 281, Nr. 5382, 4. September 1998, ISSN 0036-8075, S. 1519–1523, PMID 9727980.
C. S. Pittendrigh: Circadian rhythms and the circadian organization of living systems. In: Cold Spring Harbor Symposia on Quantitative Biology. Band 25, 1960, ISSN 0091-7451, S. 159–184, PMID 13736116.
Christoph Scheiermann, Yuya Kunisaki, Paul S. Frenette: Circadian control of the immune system. In: Nature Reviews Immunology. Band 13, Nr. 3, 2013, ISSN 1474-1741, S. 190–198, doi:10.1038/nri3386.
Joseph Bass, Mitchell A. Lazar: Circadian time signatures of fitness and disease. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 994–999, doi:10.1126/science.aah4965, PMID 27885004 (sciencemag.org [abgerufen am 30. Januar 2018]).
Harini C. Krishnan, Lisa C. Lyons: Synchrony and desynchrony in circadian clocks: impacts on learning and memory. In: Learning & Memory. Band 22, Nr. 9, 1. September 2015, ISSN 1072-0502, S. 426–437, doi:10.1101/lm.038877.115, PMID 26286653 (cshlp.org [abgerufen am 30. Januar 2018]).
Rosa Levandovski, Etianne Sasso, Maria Paz Hidalgo: Chronotype: a review of the advances, limits and applicability of the main instruments used in the literature to assess human phenotype. In: Trends in Psychiatry and Psychotherapy. Band 35, Nr. 1, 2013, ISSN 2237-6089, S. 3–11, PMID 25923181.
Giulia Zerbini, Martha Merrow: Time to learn: How chronotype impacts education. In: PsyCh Journal. Band 6, Nr. 4, Dezember 2017, ISSN 2046-0260, S. 263–276, doi:10.1002/pchj.178, PMID 28994246.
Cameron S. McAlpine, Filip K. Swirski: Circadian Influence on Metabolism and Inflammation in Atherosclerosis. In: Circulation Research. Band 119, Nr. 1, 24. Juni 2016, ISSN 0009-7330, S. 131–141, doi:10.1161/circresaha.116.308034, PMID 27340272.
E. S. Schernhammer, F. Laden, F. E. Speizer, W. C. Willett, D. J. Hunter: Rotating night shifts and risk of breast cancer in women participating in the nurses’ health study. In: Journal of the National Cancer Institute. Band 93, Nr. 20, 17. Oktober 2001, ISSN 0027-8874, S. 1563–1568, PMID 11604480.
Saurabh Sahar, Paolo Sassone-Corsi: Metabolism and cancer: the circadian clock connection. In: Nature Reviews Cancer. Band 9, Nr. 12, 2009, ISSN 1474-1768, S. 886–896, doi:10.1038/nrc2747.
Erik S. Musiek, David M. Holtzman: Mechanisms linking circadian clocks, sleep, and neurodegeneration. In: Science. Band 354, Nr. 6315, 25. November 2016, ISSN 0036-8075, S. 1004–1008, doi:10.1126/science.aah4968, PMID 27885006 (sciencemag.org [abgerufen am 30. Januar 2018]).
Dominic Landgraf, Michael J. McCarthy, David K. Welsh: Circadian Clock and Stress Interactions in the Molecular Biology of Psychiatric Disorders. In: Current Psychiatry Reports. Band 16, Nr. 10, 1. Oktober 2014, ISSN 1523-3812, S. 483, doi:10.1007/s11920-014-0483-7.