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Items: 1 to 20 of 25

1.

Adjustments of serine proteases of Daphnia pulex in response to temperature changes.

Dölling R, Becker D, Hawat S, Koch M, Schwarzenberger A, Zeis B.

Comp Biochem Physiol B Biochem Mol Biol. 2016 Jan 7;194-195:1-10. doi: 10.1016/j.cbpb.2016.01.001. [Epub ahead of print]

PMID:
26773656
2.

Hypoxia-inducible haemoglobins of Daphnia pulex and their role in the response to acute and chronic temperature increase.

Zeis B, Becker D, Gerke P, Koch M, Paul RJ.

Biochim Biophys Acta. 2013 Sep;1834(9):1704-10. doi: 10.1016/j.bbapap.2013.01.036. Epub 2013 Feb 4.

PMID:
23388388
3.

A phenomenological approach shows a high coherence of warming patterns in dimictic aquatic systems across latitude.

Wagner A, Hülsmann S, Paul L, Paul RJ, Petzoldt T, Sachse R, Schiller T, Zeis B, Benndorf J, Berendonk TU.

Mar Biol. 2012;159(11):2543-2559. Epub 2012 May 4.

5.

Adaptive haemoglobin gene control in Daphnia pulex at different oxygen and temperature conditions.

Gerke P, Börding C, Zeis B, Paul RJ.

Comp Biochem Physiol A Mol Integr Physiol. 2011 May;159(1):56-65. doi: 10.1016/j.cbpa.2011.01.017. Epub 2011 Jan 31.

PMID:
21281731
6.

Acclimatory responses of the Daphnia pulex proteome to environmental changes. II. Chronic exposure to different temperatures (10 and 20 degrees C) mainly affects protein metabolism.

Schwerin S, Zeis B, Lamkemeyer T, Paul RJ, Koch M, Madlung J, Fladerer C, Pirow R.

BMC Physiol. 2009 Apr 21;9:8. doi: 10.1186/1472-6793-9-8.

7.

Acclimatory responses of the Daphnia pulex proteome to environmental changes. I. Chronic exposure to hypoxia affects the oxygen transport system and carbohydrate metabolism.

Zeis B, Lamkemeyer T, Paul RJ, Nunes F, Schwerin S, Koch M, Schütz W, Madlung J, Fladerer C, Pirow R.

BMC Physiol. 2009 Apr 21;9:7. doi: 10.1186/1472-6793-9-7.

8.

Respiratory plasticity in response to changes in oxygen supply and demand.

Bavis RW, Powell FL, Bradford A, Hsia CC, Peltonen JE, Soliz J, Zeis B, Fergusson EK, Fu Z, Gassmann M, Kim CB, Maurer J, McGuire M, Miller BM, O'Halloran KD, Paul RJ, Reid SG, Rusko HK, Tikkanen HO, Wilkinson KA.

Integr Comp Biol. 2007 Oct;47(4):532-51. Epub 2007 Jul 23.

9.

Molecular mass of macromolecules and subunits and the quaternary structure of hemoglobin from the microcrustacean Daphnia magna.

Lamkemeyer T, Zeis B, Decker H, Jaenicke E, Waschbüsch D, Gebauer W, Markl J, Meissner U, Rousselot M, Zal F, Nicholson GJ, Paul RJ.

FEBS J. 2006 Jul;273(14):3393-410.

10.

Macromolecular isoforms of Daphnia magna haemoglobin.

Lamkemeyer T, Paul RJ, Stöcker W, Yiallouros I, Zeis B.

Biol Chem. 2005 Nov;386(11):1087-96.

PMID:
16307474
11.

Oxygen preference of Daphnia magna is influenced by Po2 acclimation and biotic interactions.

Zeis B, Pinkhaus O, Bredebusch I, Paul RJ.

Physiol Biochem Zool. 2005 May-Jun;78(3):384-93. Epub 2005 Apr 28.

PMID:
15887085
12.
13.

Molecular adaptation of Daphnia magna hemoglobin.

Zeis B, Lamkemeyer T, Paul RJ.

Micron. 2004;35(1-2):47-9.

PMID:
15036288
14.

Differential haemoglobin gene expression in the crustacean Daphnia magna exposed to different oxygen partial pressures.

Zeis B, Becher B, Goldmann T, Clark R, Vollmer E, Bölke B, Bredebusch I, Lamkemeyer T, Pinkhaus O, Pirow R, Paul RJ.

Biol Chem. 2003 Aug;384(8):1133-45.

PMID:
12974382
15.

The process of hypoxic induction of Daphnia magna hemoglobin: subunit composition and functional properties.

Zeis B, Becher B, Lamkemeyer T, Rolf S, Pirow R, Paul RJ.

Comp Biochem Physiol B Biochem Mol Biol. 2003 Feb;134(2):243-52.

PMID:
12568802
16.
17.

Investigation of the structural properties of dihydrophenazines which contribute to their pro-oxidative interactions with human phagocytes.

Savage JE, O'Sullivan JF, Zeis BM, Anderson R.

J Antimicrob Chemother. 1989 May;23(5):691-700.

PMID:
2547746
18.
19.

Inhibition of mononuclear leukocyte transformation in vitro by dehydrophenazines in comparison to clofazimine.

Zeis BM, Anderson R, O'Sullivan JF.

Lepr Rev. 1988 Mar;59(1):31-5. No abstract available.

PMID:
3398676
20.
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