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Items: 1 to 50 of 88

1.

Satisfaction with Healthcare Received at an Interprofessional Student-run Free Clinic: Invested in Training the Next Generation of Healthcare Professionals.

Lu KB, Thiel B, Atkins CA, Desai A, Botwin A, Povlow MR, Simms-Cendan J, Pasarica M.

Cureus. 2018 Mar 7;10(3):e2282. doi: 10.7759/cureus.2282.

2.

Long-distance movement of phosphate starvation-responsive microRNAs in Arabidopsis.

Huen AK, Rodriguez-Medina C, Ho AYY, Atkins CA, Smith PMC.

Plant Biol (Stuttg). 2017 Jul;19(4):643-649. doi: 10.1111/plb.12568. Epub 2017 Apr 12.

PMID:
28322489
3.

A comprehensive draft genome sequence for lupin (Lupinus angustifolius), an emerging health food: insights into plant-microbe interactions and legume evolution.

Hane JK, Ming Y, Kamphuis LG, Nelson MN, Garg G, Atkins CA, Bayer PE, Bravo A, Bringans S, Cannon S, Edwards D, Foley R, Gao LL, Harrison MJ, Huang W, Hurgobin B, Li S, Liu CW, McGrath A, Morahan G, Murray J, Weller J, Jian J, Singh KB.

Plant Biotechnol J. 2017 Mar;15(3):318-330. doi: 10.1111/pbi.12615. Epub 2016 Sep 23.

4.

Transcriptome sequencing of different narrow-leafed lupin tissue types provides a comprehensive uni-gene assembly and extensive gene-based molecular markers.

Kamphuis LG, Hane JK, Nelson MN, Gao L, Atkins CA, Singh KB.

Plant Biotechnol J. 2015 Jan;13(1):14-25. doi: 10.1111/pbi.12229. Epub 2014 Jul 24.

5.

Tau accumulation activates the unfolded protein response by impairing endoplasmic reticulum-associated degradation.

Abisambra JF, Jinwal UK, Blair LJ, O'Leary JC 3rd, Li Q, Brady S, Wang L, Guidi CE, Zhang B, Nordhues BA, Cockman M, Suntharalingham A, Li P, Jin Y, Atkins CA, Dickey CA.

J Neurosci. 2013 May 29;33(22):9498-507. doi: 10.1523/JNEUROSCI.5397-12.2013.

6.

Allosteric heat shock protein 70 inhibitors rapidly rescue synaptic plasticity deficits by reducing aberrant tau.

Abisambra J, Jinwal UK, Miyata Y, Rogers J, Blair L, Li X, Seguin SP, Wang L, Jin Y, Bacon J, Brady S, Cockman M, Guidi C, Zhang J, Koren J, Young ZT, Atkins CA, Zhang B, Lawson LY, Weeber EJ, Brodsky JL, Gestwicki JE, Dickey CA.

Biol Psychiatry. 2013 Sep 1;74(5):367-74. doi: 10.1016/j.biopsych.2013.02.027. Epub 2013 Apr 19.

7.

Comparative proteomic analysis of genotypic variation in germination and early seedling growth of chickpea under suboptimal soil-water conditions.

Vessal S, Siddique KH, Atkins CA.

J Proteome Res. 2012 Aug 3;11(8):4289-307. doi: 10.1021/pr300415w. Epub 2012 Jul 18.

PMID:
22765518
8.

Development of genomic resources for the narrow-leafed lupin (Lupinus angustifolius): construction of a bacterial artificial chromosome (BAC) library and BAC-end sequencing.

Gao LL, Hane JK, Kamphuis LG, Foley R, Shi BJ, Atkins CA, Singh KB.

BMC Genomics. 2011 Oct 21;12:521. doi: 10.1186/1471-2164-12-521.

9.

Identification and characterisation of seed storage protein transcripts from Lupinus angustifolius.

Foley RC, Gao LL, Spriggs A, Soo LY, Goggin DE, Smith PM, Atkins CA, Singh KB.

BMC Plant Biol. 2011 Apr 4;11:59. doi: 10.1186/1471-2229-11-59.

10.

Consequences of transforming narrow leafed lupin (Lupinus angustifolius [L.]) with an ipt gene under control of a flower-specific promoter.

Atkins CA, Emery RJ, Smith PM.

Transgenic Res. 2011 Dec;20(6):1321-32. doi: 10.1007/s11248-011-9497-7. Epub 2011 Feb 23.

PMID:
21344295
11.

Macromolecular composition of phloem exudate from white lupin (Lupinus albus L.).

Rodriguez-Medina C, Atkins CA, Mann AJ, Jordan ME, Smith PM.

BMC Plant Biol. 2011 Feb 22;11:36. doi: 10.1186/1471-2229-11-36.

12.

Macromolecules in phloem exudates--a review.

Atkins CA, Smith PM, Rodriguez-Medina C.

Protoplasma. 2011 Jan;248(1):165-72. doi: 10.1007/s00709-010-0236-3. Epub 2010 Nov 5. Review.

PMID:
21057827
13.

Uric acid deposits in symbiotic marine algae.

Clode PL, Saunders M, Maker G, Ludwig M, Atkins CA.

Plant Cell Environ. 2009 Feb;32(2):170-7. doi: 10.1111/j.1365-3040.2008.01909.x. Epub 2008 Nov 13.

14.

Translocation in legumes: assimilates, nutrients, and signaling molecules.

Atkins CA, Smith PM.

Plant Physiol. 2007 Jun;144(2):550-61. Review. No abstract available.

15.

Synthesis, transport and accumulation of quinolizidine alkaloids in Lupinus albus L. and L. angustifolius L.

Lee MJ, Pate JS, Harris DJ, Atkins CA.

J Exp Bot. 2007;58(5):935-46. Epub 2006 Dec 22.

PMID:
17189595
16.

Adenylate gradients and Ar:O2 effects on legume nodules. II. Changes in the subcellular adenylate pools.

Wei H, Atkins CA, Layzell DB.

Plant Physiol. 2004 Apr;134(4):1775-83. Epub 2004 Apr 2.

17.

Adenylate gradients and Ar:O(2) effects on legume nodules: I. Mathematical models.

Wei H, Atkins CA, Layzell DB.

Plant Physiol. 2004 Feb;134(2):801-12. Epub 2004 Jan 22.

18.

Dual intracellular localization and targeting of aminoimidazole ribonucleotide synthetase in cowpea.

Goggin DE, Lipscombe R, Fedorova E, Millar AH, Mann A, Atkins CA, Smith PM.

Plant Physiol. 2003 Mar;131(3):1033-41.

19.

Differential expression of a novel gene during seed triacylglycerol accumulation in lupin species ( Lupinus angustifolius L. and L. mutabilis L.).

Francki MG, Whitaker P, Smith PM, Atkins CA.

Funct Integr Genomics. 2002 Nov;2(6):292-300. Epub 2002 Oct 17.

PMID:
12444422
20.

Effect of short-term N(2) deficiency on expression of the ureide pathway in cowpea root nodules.

Smith PM, Winter H, Storer PJ, Bussell JD, Schuller KA, Atkins CA.

Plant Physiol. 2002 Jul;129(3):1216-21.

21.

Purine biosynthesis. Big in cell division, even bigger in nitrogen assimilation.

Smith PM, Atkins CA.

Plant Physiol. 2002 Mar;128(3):793-802. Review. No abstract available.

22.

The forms and sources of cytokinins in developing white lupine seeds and fruits.

Emery RJ, Ma Q, Atkins CA.

Plant Physiol. 2000 Aug;123(4):1593-604.

23.

A simplified approach for modeling diffusion into cells.

Thumfort PP, Layzell DB, Atkins CA.

J Theor Biol. 2000 May 7;204(1):47-65.

PMID:
10772848
24.

The site of oxygen limitation in soybean nodules

Kuzma MM, Winter H, Storer P, Oresnik I I, Atkins CA, Layzell DB.

Plant Physiol. 1999 Feb;119(2):399-408.

25.

cis-isomers of cytokinins predominate in chickpea seeds throughout their development

Emery RJ, Leport L, Barton JE, Turner NC, Atkins CA.

Plant Physiol. 1998 Aug;117(4):1515-23.

26.

AIR synthetase in cowpea nodules: a single gene product targeted to two organelles?

Smith PM, Mann AJ, Goggin DE, Atkins CA.

Plant Mol Biol. 1998 Apr;36(6):811-20.

PMID:
9520274
27.

Reexamination of the Intracellular Localization of de Novo Purine Synthesis in Cowpea Nodules.

Atkins CA, Smith P, Storer PJ.

Plant Physiol. 1997 Jan;113(1):127-135.

28.

A Re-Evaluation of the Role of the Infected Cell in the Control of O2 Diffusion in Legume Nodules.

Thumfort PP, Atkins CA, Layzell DB.

Plant Physiol. 1994 Aug;105(4):1321-1333.

29.
30.
31.

Effect of pO(2) on the Formation and Status of Leghemoglobin in Nodules of Cowpea and Soybean.

Dakora FD, Appleby CA, Atkins CA.

Plant Physiol. 1991 Mar;95(3):723-30.

32.

Cytokinins in the Phloem Sap of White Lupin (Lupinus albus L.).

Taylor JS, Thompson B, Pate JS, Atkins CA, Pharis RP.

Plant Physiol. 1990 Dec;94(4):1714-20.

33.

Morphological and structural adaptation of nodules of cowpea to functioning under sub- and supra-ambient oxygen pressure.

Dakora FD, Atkins CA.

Planta. 1990 Nov;182(4):572-82. doi: 10.1007/BF02341034.

PMID:
24197379
34.

Effect of oxygen pressure on synthesis and export of nitrogenous solutes by nodules of cowpea.

Atkins CA, Dakora FD, Storer PJ.

Planta. 1990 Nov;182(4):565-71. doi: 10.1007/BF02341033.

PMID:
24197378
36.
37.

Nitrogen Nutrition of Nodules in Relation to ;N-Hunger' in Cowpea (Vigna unguiculata L. Walp).

Atkins CA, Pate JS, Sanford PJ, Dakora FD, Matthews I.

Plant Physiol. 1989 Aug;90(4):1644-9.

38.

Pathways of assimilation and transfer of fixed nitrogen in coralloid roots of cycad-Nostoc symbioses.

Pate JS, Lindblad P, Atkins CA.

Planta. 1988 Dec;176(4):461-71. doi: 10.1007/BF00397652.

PMID:
24220942
39.

Inhibition of nodule functioning in cowpea by a xanthine oxidoreductase inhibitor, allopurinol.

Atkins CA, Sanford PJ, Storer PJ, Pate JS.

Plant Physiol. 1988 Dec;88(4):1229-34.

40.

Pathways of Nitrogen Assimilation in Cowpea Nodules Studied using N(2) and Allopurinol.

Atkins CA, Storer PJ, Pate JS.

Plant Physiol. 1988 Jan;86(1):204-7.

41.

Nitrogen Nutrition and Xylem Sap Composition of Peanut (Arachis hypogaea L. cv Virginia Bunch).

Peoples MB, Pate JS, Atkins CA, Bergersen FJ.

Plant Physiol. 1986 Dec;82(4):946-51.

42.

The extrafloral nectaries of cowpea (Vigna unguiculata (L.) Walp.) II. Nectar composition, origin of nectar solutes, and nectary functioning.

Pate JS, Peoples MB, Storer PJ, Atkins CA.

Planta. 1985 Sep;166(1):28-38. doi: 10.1007/BF00397382.

PMID:
24241308
43.

Nitrogen nutrition and metabolic interconversions of nitrogenous solutes in developing cowpea fruits.

Peoples MB, Atkins CA, Pate JS, Murray DR.

Plant Physiol. 1985 Feb;77(2):382-8.

44.
45.

Ion Circulation via Phloem and Xylem Between Root and Shoot of Nodulated White Lupin.

Dieter Jeschke W, Atkins CA, Pate JS.

J Plant Physiol. 1985 Jan;117(4):319-30. doi: 10.1016/S0176-1617(85)80068-7. Epub 2012 Jan 20.

PMID:
23195799
46.

Diurnal water balance of the cowpea fruit.

Pate JS, Peoples MB, van Bel AJ, Kuo J, Atkins CA.

Plant Physiol. 1985 Jan;77(1):148-56.

47.

Economy of water, carbon, and nitrogen in the developing cowpea fruit.

Peoples MB, Pate JS, Atkins CA, Murray DR.

Plant Physiol. 1985 Jan;77(1):142-7.

48.

Effects of short-term n(2) deficiency on N metabolism in legume nodules.

Atkins CA, Pate JS, Shelp BJ.

Plant Physiol. 1984 Nov;76(3):705-10.

49.
50.

Nitrogen nutrition and the development and senescence of nodules on cowpea seedlings.

Atkins CA, Shelp BJ, Kuo J, Peoples MB, Pate JS.

Planta. 1984 Oct;162(4):316-26. doi: 10.1007/BF00396743.

PMID:
24253165

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