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Items: 1 to 20 of 89

1.

Nociceptin Signaling Involves a Calcium-Based Depolarization in Tetrahymena thermophila.

Lampert T, Nugent C, Weston J, Braun N, Kuruvilla H.

Int J Pept. 2013;2013:573716. doi: 10.1155/2013/573716. Epub 2013 Apr 29.

2.

A comparison of the polycation receptors of Paramecium tetraurelia and Tetrahymena thermophila.

Robinette ED, Gulley KT, Cassity KJ, King EE, Nielsen AJ, Rozelle CL, Warren TJ, Morrow JM, Kuruvilla HG.

J Eukaryot Microbiol. 2008 Mar-Apr;55(2):86-90. doi: 10.1111/j.1550-7408.2008.00310.x.

PMID:
18318860
3.

Netrin-1 Peptide Is a Chemorepellent in Tetrahymena thermophila.

Kuruvilla H, Schmidt B, Song S, Bhajjan M, Merical M, Alley C, Griffin C, Yoder D, Hein J, Kohl D, Puffenberger C, Petroff D, Newcomer E, Good K, Heston G, Hurtubise A.

Int J Pept. 2016;2016:7142868. doi: 10.1155/2016/7142868. Epub 2016 Mar 31.

4.

GTP avoidance in Tetrahymena thermophila requires tyrosine kinase activity, intracellular calcium, NOS, and guanylyl cyclase.

Bartholomew J, Reichart J, Mundy R, Recktenwald J, Keyser S, Riddle M, Kuruvilla H.

Purinergic Signal. 2008 Jun;4(2):171-81. doi: 10.1007/s11302-007-9052-4. Epub 2007 Feb 24.

5.

Inner arm dynein 1 is essential for Ca++-dependent ciliary reversals in Tetrahymena thermophila.

Hennessey TM, Kim DY, Oberski DJ, Hard R, Rankin SA, Pennock DG.

Cell Motil Cytoskeleton. 2002 Dec;53(4):281-8.

PMID:
12378538
6.

ATP reception and chemosensory adaptation in Tetrahymena thermophila.

Kim MY, Kuruvilla HG, Raghu S, Hennessey TM.

J Exp Biol. 1999 Jan 21;202(Pt 4):407-416.

7.

Chemorepellents in Paramecium and Tetrahymena.

Francis JT, Hennessey TM.

J Eukaryot Microbiol. 1995 Jan-Feb;42(1):78-83.

PMID:
7537146
8.

Behavioral Effects of a Chemorepellent Receptor Knockout Mutation in Tetrahymena thermophila.

Zou D, Hennessey TM.

mSphere. 2017 Jul 5;2(4). pii: e00182-17. doi: 10.1128/mSphere.00182-17. eCollection 2017 Jul-Aug.

9.

Purification and characterization of a novel chemorepellent receptor from Tetrahymena thermophila.

Kuruvilla HG, Hennessey TM.

J Membr Biol. 1998 Mar 1;162(1):51-7.

PMID:
9516237
10.

Dephosphorylation of inner arm 1 is associated with ciliary reversals in Tetrahymena thermophila.

Deckman CM, Pennock DG.

Cell Motil Cytoskeleton. 2004 Feb;57(2):73-83.

PMID:
14691947
11.

Chemorepellent signaling through the PACAP/lysozyme receptor is mediated through cAMP and PKC in Tetrahymena thermophila.

Hassenzahl DL, Yorgey NK, Keedy MD, Price AR, Hall JA, Myzcka CC, Kuruvilla HG.

J Comp Physiol A. 2001 Apr;187(3):171-6.

PMID:
11401196
12.

Chemoattraction to lysophosphatidic acid does not require a change in membrane potential in Tetrahymena thermophila.

Lampert TJ, Coleman KD, Hennessey TM.

Cell Biol Int. 2011 May;35(5):519-28. doi: 10.1042/CBI20100320.

PMID:
21091443
13.

Mutations in genes encoding inner arm dynein heavy chains in Tetrahymena thermophila lead to axonemal hypersensitivity to Ca2+.

Liu S, Hennessey T, Rankin S, Pennock DG.

Cell Motil Cytoskeleton. 2005 Nov;62(3):133-40.

PMID:
16173097
14.

Calmodulin and Ca2+/calmodulin-binding proteins are involved in Tetrahymena thermophila phagocytosis.

Gonda K, Komatsu M, Numata O.

Cell Struct Funct. 2000 Aug;25(4):243-51.

15.
16.

PACAP-38 is a chemorepellent and an agonist for the lysozyme receptor in tetrahymena thermophila.

Mace SR, Dean JG, Murphy JR, Rhodes JL, Kuruvilla HG.

J Comp Physiol A. 2000 Jan;186(1):39-43.

PMID:
10659041
18.

External GTP binding and induction of cell division in starved Tetrahymena thermophila.

Iwamoto M, Nakaoka Y.

Eur J Cell Biol. 2002 Sep;81(9):517-24.

PMID:
12416728
19.

Nociceptin receptor coupling to a potassium conductance in rat locus coeruleus neurones in vitro.

Connor M, Vaughan CW, Chieng B, Christie MJ.

Br J Pharmacol. 1996 Dec;119(8):1614-8.

20.

A soluble ecto-ATPase from Tetrahymena thermophila: purification and similarity to the membrane-bound ecto-ATPase of smooth muscle.

Smith TM Jr, Kirley TL, Hennessey TM.

Arch Biochem Biophys. 1997 Jan 15;337(2):351-9.

PMID:
9016833

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