Wyniki wyszukiwania

1

Czynnik rozpraszajacy pigment jako mediator zegara biologicznego owadow

100%

Pyza E.

Kosmos

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1996

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tom 45

|

nr 2-3

303-314

2

Circadian clock and plasticity in the visual system of insects

100%

Pyza E.

Acta Neurobiologiae Experimentalis

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2007

|

tom 67

|

nr 3

3

Circadian synaptic plasticity

100%

Pyza E.

Acta Biologica Cracoviensia. Series Botanica. Supplement

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2018

|

tom 60

|

nr 1

4

The effect of quipazine a serotonin agonist on the rhytm of locomotor activity of the house cricket (Acheta domesticus L.) at LD 12:12

100%

Pyza E.

Folia Biologica

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1988

|

tom 36

|

nr 3-4

5

Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik

Jubileusz 140-lecia Polskiego Towarzystwa Przyrodników im.Kopernika

88%

Pyza E.

Wszechświat

|

2016

|

tom 117

|

nr 01-03

6

Genetyczne i srodowiskowe aspekty starzenia sie mozgu

88%

Pyza E.

Wszechświat

|

2009

|

tom 110

|

nr 01-03

27-32

7

The possible function and mechanism of circadian rhythms in the fly's visual system

88%

Pyza E.

Acta Neurobiologiae Experimentalis

|

2001

|

tom 61

|

nr 3

8

Insect models of heavy metal neurotoxicity

88%

Pyza E.

Acta Neurobiologiae Experimentalis

|

2005

|

tom 65

|

nr 3

9

140-lecie polskiego Towarzystwa Przyrodników im. Kopernika

88%

Pyza E.

Wszechświat

|

2015

|

tom 116

|

nr 10-12

10

"Tydzień Mózgu 2011" w Krakowie

75%

Pyza E.

Wszechświat

|

2011

|

tom 112

|

nr 01-03

11

"Tydzień Mózgu" 2018 w Krakowie

75%

Pyza E.

Wszechświat

|

2018

|

tom 119

|

nr 01-03

12

Tydzień Mózgu 2020

75%

Pyza E.

Wszechświat

|

2020

|

tom 121

|

nr 01-03

13

The involvement of TOR protein kinase and PI3K class 1 in the regulation of circadian neuroplasticity in the visual system of Drosophila melanogaster

63%

Kijak E., Pyza E.

Acta Neurobiologiae Experimentalis

|

2013

|

tom 73

|

nr Suppl.1

In the visual system of D. melanogaster numerous circadian rhythms have been described. The most pronounced rhythmic changes have been detected in L2 monopolar cells located in the first neuropil of the optic lobe (the lamina). The L2’s dendritic tree perimeter oscillates in a circadian manner and is the largest at the beginning of the day. The aim of our study was to understand molecular mechanisms controlling cyclic L2 dendritic tree changes. We have examined a possible involvement of TOR and PI3K class 1 proteins in this process. First the expression of tor and pi3k class 1 genes was investigated in the fly’s brain at different times of the day in 12 h of light and 12 h of darkness (LD12:12) or constant darkness (DD) by means of Real-Time PCR. Next the analysis of circadian changes in the perimeter of GFP labeled L2 dendritic trees was examined in control and in flies with down-regulated expression of tor or pi3k class 1 genes. The obtained results showed that the expression of tor gene changes during the 24 h cycle and is the highest when the L2 cell dendritic trees are largest. The silencing of tor gene expression resulted in the disruption of circadian changes in L2 interneurons. It indicates that TOR signaling pathway is involved in the mechanism of circadian neuroplasticity in the visual system of D. melanogaster.

14

Effects of zinc and cadmium on morphology and plasticity of neurons in the visual system of Musca domestica

63%

Borowska J., Pyza E.

Acta Neurobiologiae Experimentalis

|

2005

|

tom 65

|

nr 3

15

Profesor Janusz Wojtusiak - Członek Polskiego Towarzystwa Przyrodników im. Kopernika, Prezes Oddziału Krakowskiego Towarzystwa w latach 1991-1993

63%

Pyza E., Prycz T. W.

Wszechświat

|

2012

|

tom 113

|

nr 04-06

16

Circadian rhythms in locomotor activity and in the visual system of the blowfly

63%

Pyza E., Cymborowski B.

Acta Neurobiologiae Experimentalis

|

1999

|

tom 59

|

nr 3

17

External and internal inputs affecting plasticity of dendrites and axons of the fly’s neurons

63%

Pyza E., Gorska-Andrzejak J.

Acta Neurobiologiae Experimentalis

|

2008

|

tom 68

|

nr 2

Neurons and glial cells in the fly’s visual system exhibit circadian rhythms through changes in shape and size. Moreover, the number of synaptic contacts between these cells changes during the day and night and in the case of one type of synapses, feedback synapses, is maintained under constant conditions indicating an endogenous origin of this rhythm. The structural changes described above, involving the oscillations in the number of synapses and the size of interneurons and glial cells, are examples of plasticity in the central nervous system driven by internal inputs from a circadian clock and by external stimuli such as light. They are also modulated by visual and other sensory stimuli and by motor activity.

18

Circadian clock in the brain controls, circadian rhythms in the fly's optic lobe

63%

Balys M., Pyza E.

Acta Neurobiologiae Experimentalis

|

1999

|

tom 59

|

nr 3

19

Molekularne mechanizmy zegara biologicznego

63%

Pyza E., Nowak J. Z.

Postępy Higieny i Medycyny Doświadczalnej

|

1999

|

tom 53

|

nr 3

423-444

20

Effects of constant light and the clock genes on circadian plasticity of neurons in Drosophila

63%

Weber P., Pyza E.

Acta Neurobiologiae Experimentalis

|

2007

|

tom 67

|

nr 3

Ograniczanie wyników

Czynnik rozpraszajacy pigment jako mediator zegara biologicznego owadow

Circadian clock and plasticity in the visual system of insects

Circadian synaptic plasticity

The effect of quipazine a serotonin agonist on the rhytm of locomotor activity of the house cricket (Acheta domesticus L.) at LD 12:12

Jubileusz 140-lecia Polskiego Towarzystwa Przyrodników im.Kopernika

Genetyczne i srodowiskowe aspekty starzenia sie mozgu

The possible function and mechanism of circadian rhythms in the fly's visual system

Insect models of heavy metal neurotoxicity

140-lecie polskiego Towarzystwa Przyrodników im. Kopernika

"Tydzień Mózgu 2011" w Krakowie

"Tydzień Mózgu" 2018 w Krakowie

Tydzień Mózgu 2020

The involvement of TOR protein kinase and PI3K class 1 in the regulation of circadian neuroplasticity in the visual system of Drosophila melanogaster

Effects of zinc and cadmium on morphology and plasticity of neurons in the visual system of Musca domestica

Profesor Janusz Wojtusiak - Członek Polskiego Towarzystwa Przyrodników im. Kopernika, Prezes Oddziału Krakowskiego Towarzystwa w latach 1991-1993

Circadian rhythms in locomotor activity and in the visual system of the blowfly

External and internal inputs affecting plasticity of dendrites and axons of the fly’s neurons

Circadian clock in the brain controls, circadian rhythms in the fly's optic lobe

Molekularne mechanizmy zegara biologicznego

Effects of constant light and the clock genes on circadian plasticity of neurons in Drosophila