y.tsentalovich

Yuri Tsentalovich

  • Email: yura@tomo.nsc.ru

Experiments:


Siberian wood frog hypoxia and normal
Comparison of metabolomic compositions of heart and liver from Siberian wood frog under normal conditions and hypoxia (Siberia, Russia). *Reference*: Sergei V. Shekhovtsov, Nina A. Bulakhova, Yuri P. Tsentalovich, Ekaterina A. Zelentsova, Lyudmila V. Yanshole, Ekaterina N. Meshcheryakova, Daniil I. Berman. Metabolic response of the Siberian wood frog Rana amurensis to anoxia. Sci. Reports 10 (2020) 14604. [DOI: 10.1038/s41598-020-71616-4](https://doi.org/10.1038/s41598-020-71616-4)
Siberian roe lens
Lenses from Siberian roe deer *Unpublished*
Mink lens
Lenses from farmed mink from Common Use Center for Gene Pools of Fur and Farm Animals (ICG SB RAS, Novosibirsk, Russia) *Unpublished*
Rat brain 0.6m 18m
Brains from two laboratory rat strains - Wistar and OXYS (ICG SB RAS, Novosibirsk) *Unpublished*
Rat lens
Laboratory rat lens (Wistar strain). *Reference*: Vadim V. Yanshole, Olga A. Snytnikova, Alexey S. Kiryutin, Lyudmila V. Yanshole, Renad Z. Sagdeev, Yuri P. Tsentalovich. Metabolomics of the rat lens: a combined LC-MS and NMR study. Exp. Eye Res. 125 (2014) 71-78.
Rat blood (Autophagy)
Autophagy modulation experiment on 4 month old OXYS and Wistar rats using serum blood Reference: Snytnikova, O.; Tsentalovich, Y.; Sagdeev, R.; Kolosova, N.; Kozhevnikova, O. Quantitative Metabolomic Analysis of Changes in the Rat Blood Serum during Autophagy Modulation: A Focus on Accelerated Senescence. Int. J. Mol. Sci. 2022, 23, 12720. https://doi.org/10.3390/ijms232112720
Wild and farmed fox lens
Comparison of lenses from wild Red Fox and its farmed melanistic (morph) form Silver Fox *Unpublished*
11 types of Pike-perch tissues
Metabolomic compositions of 11 tissues from pike-perch, including gill, heart, liver, kidney, spleen, muscle, brain, milt, lens, aqueous (AH) and vitreous (VH) humors. *Reference*: Yu.P. Tsentalovich, E.A. Zelentsova, L.V. Yanshole, V.V. Yanshole, I.M. Odud. Most abundant metabolites in tissues of freshwater fish pike-perch (Sander lucioperca). Sci. Reports 10 (2020) 17128. [DOI: 10.1038/s41598-020-73895-3](https://doi.org/10.1038/s41598-020-73895-3)
Human cornea and aqueous humour (keratoconus)
Comparison of metabolomic compositions of human cornea and aqueous humor (AH) taken from keratoconus patients and normal post-mortem donors *Reference*: O.A. Snytnikova, L.V. Yanshole, I.A. Iskakov, V.V. Yanshole, V.V. Chernykh, D.A. Stepakov, V.P. Novoselov, Yu.P. Tsentalovich, Quantitative metabolomic analysis of the human cornea and aqueous humor, Metabolomics (2017) 13:152. DOI 10.1007/s11306-017-1281-0
Pike-perch and roach - seasonal variations
Metabolomic compositions of lenses and gills from pike-perch and Siberian roach caught in Ob reservoir at late autumn and late winter. *Reference*: Yu.P. Tsentalovich, V.V. Yanshole, L.V. Yanshole, E.A. Zelentsova, A.D. Melnikov and R.Z. Sagdeev. Seasonal variations and interspecific differences in metabolomes of freshwater fish tissues: quantitative metabolomic profiles of lenses and gills. Metabolites 2019, 9, 264; [doi:10.3390/metabo9110264](https://doi.org/10.3390/metabo9110264)
Lenses from 14 bird species
Lenses from various wild birds. *Reference*: Ekaterina A. Zelentsova, Lyudmila V. Yanshole, Yuri P. Tsentalovich, Kirill A. Sharshov and Vadim. V. Yanshole. Application of Quantitative Metabolomics for Taxonomic Differentiation of Birds. Biology 2022, 11, 1089. https://doi.org/10.3390/biology11071089
Mucine mouse blood
Blood from Mucine2 knockout mouse Muc2-/-, Muc2+/+ and wild type C57Bl/6. *Reference*: Morozova, M.V., Borisova, M.A., Snytnikova, O.A, Achasova K.M., Litvinova E.A., Tsentalovich Y.P., Kozhevnikova E.N. Colitis-associated intestinal microbiota regulates brain glycine and host behavior in mice. Sci Rep 12, 16345 (2022). https://doi.org/10.1038/s41598-022-19219-z
Porcine lens
Lens from farm porcine, intact lens and UVA irradiated. *Unpublished*
Three gull species lenses
lenses from three gull species *Reference*: N.A. Osik, E.A. Zelentsova, K.A. Sharshov, Yu.P. Tsentalovich. Nicotinamide adenine dinucleotide reduced (NADH) is a natural UV flter of certain bird lens. Scientific Reports (2022) 12(1), 16850. https://doi.org/10.1038/s41598-022-21139-x
Rat brain incubation
Incubation of rat brain extracts and homogenates at 4 C for examining the stability of metabolomic content during sample preparation for metabolomics experiments *Reference*: Fomenko M.V., Yanshole L.V., Tsentalovich Y.P.. Stability of Metabolomic Content during Sample Preparation: Blood and Brain Tissues. Metabolites. 2022; 12(9):811. https://doi.org/10.3390/metabo12090811
Perch lens from Borovoye, Nigiya, Ob reservoir
Comparison of metabolomic compositions of lenses from perch caught in March 2019 in lake Borovoye, river Nigiya and in Ob reservoir (Siberia, Russia). *Reference*: Tsentalovich, Y.P.; Zelentsova, E.A.; Savina, E.D.; Yanshole, V.V.; Sagdeev, R.Z. Influence of Ecological Factors on the Metabolomic Composition of Fish Lenses. Biology 2022, 11, 1709. https://doi.org/10.3390/biology11121709
Mice brain with phospholipids treatment
Brain from C57Bl/6 mice after long term phospholipids treatment. Reference: unpublished
Cow lens
Fresh cow lenses. Reference: unpublished
Mice blood with phospholipids treatment
Blood serum from C57Bl/6 mice after long term phospholipids treatment. Reference: unpublished
Predator and waterfowl bird lenses
Lenses from various wild predator and waterfowl birds
Human vitreous humor post-mortem
Human vitreous humor at different post-mortem intervals. *Reference*: Zelentsova, E.A., Yanshole, L.V., Melnikov, A.D., Kudryavtsev, I.S., Novoselov, V.P., Tsentalovich, Y.P. Post-mortem changes in metabolomic profiles of human serum, aqueous humor and vitreous humor. Metabolomics 16 (2020) 80. DOI: 10.1007/s11306-020-01700-3
Human blood post-mortem
Human blood at different post-mortem intervals. Reference: Zelentsova, E.A., Yanshole, L.V., Melnikov, A.D., Kudryavtsev, I.S., Novoselov, V.P., Tsentalovich, Y.P. Post-mortem changes in metabolomic profiles of human serum, aqueous humor and vitreous humor. Metabolomics 16 (2020) 80. DOI: 10.1007/s11306-020-01700-3
Rat brain 3 months
Brains from two laboratory rat strains - Wistar and OXYS (ICG SB RAS, Novosibirsk) Reference: unpublished
Frozen worms
Metabolome of two types of worms (Dendrobaena octaedra, Eisenia sp. aff. nordenskioldi f. pallida) in cold (+1 C) and frozen (-8 C) conditions
Salamander frozen and normal
Comparison of metabolomic compositions of liver and muscle from Siberian salamander under normal conditions and frozen at -8C. Reference:
Ruffe lens from Nigiya and Ob reservoir
Comparison of metabolomic compositions of lenses from Eurasian ruffe (Gymnocephalus cernua) caught in March 2019 in river Nigiya and in Ob reservoir (Siberia, Russia). *Publication*: Tsentalovich, Y.P.; Zelentsova, E.A.; Savina, E.D.; Yanshole, V.V.; Sagdeev, R.Z. Influence of Ecological Factors on the Metabolomic Composition of Fish Lenses. Biology 2022, 11, 1709. https://doi.org/10.3390/biology11121709
Mucine mouse brain
Brain from Mucine2 knockout mouse Muc2-/-, Muc2+/+ and wild type C57Bl/6. *Reference*: Morozova, M.V., Borisova, M.A., Snytnikova, O.A, Achasova K.M., Litvinova E.A., Tsentalovich Y.P., Kozhevnikova E.N. Colitis-associated intestinal microbiota regulates brain glycine and host behavior in mice. Sci Rep 12, 16345 (2022). https://doi.org/10.1038/s41598-022-19219-z
Human blood incubation
Incubation of human blood extracts and homogenates at 4 C for examining the stability of metabolomic content during sample preparation for metabolomics experiments Reference: Fomenko M.V., Yanshole L.V., Tsentalovich Y.P.. Stability of Metabolomic Content during Sample Preparation: Blood and Brain Tissues. Metabolites. 2022; 12(9):811. https://doi.org/10.3390/metabo12090811
Macaque ocular tissues and blood
Serum, aqueous humor, lens, and vitreous humor of crab-eating macaque
Human aqueous humor post-mortem
Human aqueous humor at different post-mortem intervals. *Reference*: Zelentsova, E.A., Yanshole, L.V., Melnikov, A.D., Kudryavtsev, I.S., Novoselov, V.P., Tsentalovich, Y.P. Post-mortem changes in metabolomic profiles of human serum, aqueous humor and vitreous humor. Metabolomics 16 (2020) 80. DOI: 10.1007/s11306-020-01700-3
Frozen frog - liver
Liver from frozen and control moor frog Rana arvalis. *Reference*: S.V. Shekhovtsov, N.A. Bulakhova, Yu.P. Tsentalovich, E.A. Zelentsova, E.N. Meshcheryakova, T.V. Poluboyarova, D.I. Berman. Metabolomic analysis reveals that the moor frog Rana arvalis uses both glucose and glycerol as cryoprotectants. Animals 2022, 12, 1286. https://doi.org/10.3390/ani12101286
Far Eastern frog hypoxia
Far Eastern frog heart, liver, brain
Macaque rhesus and crab-eating
Aqueous humor, lens, and vitreous humor of rhesus crab-eating macaque

Sample groups:


C.aeruginosus lens
Lenses of Western marsh harrier (Circus aeruginosus)

L.excubitor lens
Lenses from Great grey shrike (Lanius excubitor)

Macaque AH
AH of Crab-eating macaque (Macaca fascicularis) 15 minutes post mortem

P.grisegena lens
Lenses from Red-necked grebe (Podiceps grisegena)

Macaque VH
VH of Crab-eating macaque (Macaca fascicularis) 15 minutes post mortem

Macaque Lens
Lens of Crab-eating macaque (Macaca fascicularis) 15 minutes post mortem

Fox lens (wild)
Lens of Red fox wild

C.frugilegus lens
Lenses from Rook (Corvus frugilegus) caught on different dates and in different places

Wistar brain 18m
Brain from Wistar rats 18 months old

Porcine lens intact
Lens from farm porcine, intact

OXYS rat brain 20d
Brain from OXYS rats 20 days old (ICG SB RAS, Novosibirsk)

Porcine lens irr
Lens from farm porcine, UVA irradiated.

Frog Liver hypoxia
Liver from Siberian wood frog (Siberia, Russia) under hypoxia

Frog Heart normoxia
Heart from Siberian wood frog (Siberia, Russia) under normal conditions (normoxia).

Perch lens Nigiya
Lenses from Perch caught in March 2019 in river Nigiya (Siberia, Russia).

Perch lens Ob
Lenses from Perch caught in March 2019 in Ob reservoir (Siberia, Russia).

Pike-perch spleen
Spleen of pike-perch

Pike-perch VH
Vitreous humour of pike-perch

Pike-perch AH
Aqueous humour of Pike-perch

Pike-perch brain
Brain of pike-perch

Pike-perch gill
Gill of pike-perch

Pike-perch kidney
Kidney of pike-perch

Pike-perch heart
Heart of pike-perch

Pike-perch lens
Lens of pike-perch

Pike-perch milt
Milt of pike-perch

Pike-perch muscle
Muscle (meat) of pike-perch

Pike-perch lens autumn
lenses from pike-perch caught in Ob reservoir at late autumn

Pike-perch lens winter
lenses from pike-perch caught in Ob reservoir at late winter

Roach gill winter
gills from Siberian roach caught in Ob reservoir at late winter

Roach lens autumn
lenses from Siberian roach caught in Ob reservoir at late autumn.

P.cristatus lens
Lenses from Great crested grebe (Podiceps cristatus) caught on different dates and in different places

C. coccothraustes lens
Lenses from Hawfinch (Coccothraustes coccothraustes) caught on different dates and in different places

M.migrans lens
Lenses from Black kite (Milvus migrans) caught on different dates and in different places

E.Godlewskii lens
Lenses from Godlewski's bunting (Emberiza godlewskii) caught on different dates and in different places

P.pica lens
Lenses from Common magpie (Pica pica) caught on different dates and in different places

P.domesticus lens
Lenses from House sparrow (Passer domesticus) caught on different dates and in different places

C.cornix lens
Lenses from Hooded crow (Corvus cornix) caught on different dates and in different places

C57BL/6 blood
Control blood from wild type C57Bl/6.

C57BL/6 blood Muc2-
Blood from mutant mouse Muc2-/-

C57BL/6 brain
Control brain from wild type C57Bl/6.

C57BL/6 brain Muc2-
Brain from munant mouse Muc2-/-

C57BL/6 brain Muc2+
Brain from mutant mouse Muc2+/+

Wistar lens 3m
Lenses from Wistar rats 3 month old

L.argentatus lens
Lenses from European herring gull

L.mongolicus lens
Lenses from Mongolian gull

C.ridibundus lens
Lenses of Black-headed gull

Human AH kerat
Human Aqueous humour from keratoconus patients

Human AH norm
Human Aqueous humour from normal, post-mortem donors

Human Cornea norm
Human Cornea from normal, post-mortem donors

Human Cornea kerat
Human Cornea from keratoconus patients

Ruffe lens Ob
Lenses from Eurasian ruffe (Gymnocephalus cernua) caught in March 2019 in Ob reservoir (Siberia, Russia).

P.auritus lens
Lenses of Horned grebe (Podiceps auritus)

OXYS rat brain 3m
Brain from OXYS rats (ICG SB RAS, Novosibirsk) 3 months old

Frog Liver normoxia
Liver from Siberian wood frog (Siberia, Russia) under normal conditions (normoxia).

Fox lens (farm)
farmed melanistic (morph) form of Red Fox - Silver Fox, obtained from Common Use Center for Gene Pools of Fur and Farm Animals (ICG SB RAS, Novosibirsk, Russia)

Pike-perch gill winter
gills from pike-perch caught in Ob reservoir at late winter

Mink lens
Lenses from farmed European Mink from Common Use Center for Gene Pools of Fur and Farm Animals (ICG SB RAS, Novosibirsk, Russia)

C.livia lens
Lenses from Rock dove (Columba livia) caught on different dates and in different places

P.major lens
Lenses from Great tit (Parus major) caught on different dates and in different places

C.corax lens
Lenses from Common raven (Corvus corax) caught on different dates and in different places

Wistar brain 20d
Brain from Wistar rats 20 days old

Siberian roe lens
Lenses from Siberian roe deer

Wistar blood control
Blood from Wistar rats basal control

Human blood Hom 3h
Whole blood homogenate, incubation at 4 C, 3h

OXYS blood CQ fasting
Blood from OXYS rats with chloroquine injection and fasting for 48 h

OXYS blood PBS
Blood from OXYS rats with PBS injection

OXYS blood control
Blood from OXYS rats, basal control

OXYS blood fasting
Blood from OXYS rats fasting for 48 hours

Wistar blood CQ
Blood from Wistar rats with chloroquine injection

Wistar blood CQ fasting
Blood from Wistar rats with chloroquine injection and fasting for 48 h

Wistar blood PBS
Blood from Wistar rats with PBS injection

Wistar blood fasting
Blood from Wistar rats, fasting for 48 hours

OXYS blood CQ
Blood from OXYS rats with chloroquine injection

Wistar brain 3m
Brain from Wistar rats 3 months old

D.octaedra body frozen
Dendrobaena octaedra frozen

Human blood Hom 1h
Whole blood homogenate, incubation at 4 C, 1h

Human blood Hom 5h
Whole blood homogenate, incubation at 4 C, 5h

Human blood Hom 0h
Whole blood homogenate, incubation at 4 C, 0h

Human blood Hom 2h
Whole blood homogenate, incubation at 4 C, 2h

Rat brain Extr 5h
Rat brain extract, incubation at 4 C, 5h

Human blood Hom 24h
Whole blood homogenate, incubation at 4 C, 24h

Human blood Extr 0h
Whole blood extract, incubation at 4 C, 0h

Human blood Extr 24h
Whole blood extract, incubation at 4 C, 24h

Rat brain Extr 0h
Rat brain extract, incubation at 4 C, 0h

Rat brain Extr 1h
Rat brain extract, incubation at 4 C, 1h

Rat brain Extr 2h
Rat brain extract, incubation at 4 C, 2h

Eisenia body control
Eisenia sp. aff. nordenskioldi f. pallida whole body control

Eisenia body frozen
Eisenia sp. aff. nordenskioldi f. pallida whole body frozen

Rat brain Extr 3h
Rat brain extract, incubation at 4 C, 3h

Rat brain Extr 30m
Rat brain extract, incubation at 4 C, 0.5h

Human blood Hom 30m
Human whole blood homogenate, incubation at 4 C, 0.5h

Rat brain Extr 24h
Rat brain extract, incubation at 4 C, 24h

Rat brain Hom 0h
Rat brain homogenate, incubation at 4 C, 0h

Rat brain Hom 1h
Rat brain homogenate, incubation at 4 C, 1h

Rat brain Hom 30m
Rat brain homogenate, incubation at 4 C, 0.5h

B.buteo lens
Lenses of Common buzzard (Buteo buteo)

Liver hyp
Frog liver hypoxia

Rat brain Hom 5h
Rat brain homogenate, incubation at 4 C, 5h

Rat brain Hom 24h
Rat brain homogenate, incubation at 4 C, 24h

Ruffe lens Nigiya
Lenses from Eurasian ruffe (Gymnocephalus cernua) caught in March 2019 in river Nigiya (Siberia, Russia).

Salamander Liver frozen
Liver of frozen salamander

Salamander Muscle frozen
Muscle of frozen salamander

Salamander Liver norm
Liver of control salamander

Salamander muscle norm
Muscle of control salamander

P.ruficollis lens
Lenses of Little grebe (Podiceps ruficollis)

D.octaedra body control
Dendrobaena octaedra Whole body control

Macaque serum
Serum of Crab-eating macaque (Macaca fascicularis)

Frog Heart hypoxia
Heart from Siberian wood frog (Siberia, Russia) under hypoxia.

Perch lens Borovoye
Lenses from Perch caught in March 2019 in lake Borovoye (Siberia, Russia).

Pike-perch liver
Liver of pike-perch

Macaque serum PM
Serum of Crab-eating macaque (Macaca fascicularis) 15 minutes post mortem

Roach lens winter
lenses from Siberian roach caught in Ob reservoir at late winter

Cow lens
Fresh cow lenses

F.atra lens
Lenses from Eurasian coot (Fulica atra) caught on different dates and in different places

S.uralensis lens
Lenses from Ural owl (Strix uralensis) caught on different dates and in different places

A.flammeus lens
Lenses from Short-eared owl (Asio flammeus) caught on different dates and in different places

C57BL/6 blood Muc2+
Blood from mutant mouse Muc2+/+

OXYS rat brain 18m
Brain from OXYS rats (ICG SB RAS, Novosibirsk) 18 months old

Rat brain Hom 2h
Rat brain homogenate, incubation at 4 C, 2h

Rat brain Hom 3h
Rat brain homogenate, incubation at 4 C, 3h

C57Bl/6 brain control
Brain from C57Bl/6 mice, control

C57Bl/6 brain PL
Brain from C57Bl/6 mice, with phospolipids treatment

C57Bl/6 blood control
Blood from C57Bl/6 mice, control

C57Bl/6 blood PL
Blood from C57Bl/6 mice, with phospholipids treatment

Human AH PM
Human aqueous humor at different post-mortem intervals

Human VH PM
Human vitreous humor at different post-mortem intervals

Human blood PM
Human blood at different post-mortem intervals

Frog Liver frozen
Liver from frozen moor frog

Frog Liver control
Liver from control moor frog

CEM VH
VH of crab-eating macaque

Brain c
Frog brain control

Brain hyp
Frog brain hypoxia

Heart c
Frog heart control

Heart hyp
Frog heart hypoxia

Liver c
Frog liver control

RM AH
AH of rhesus macaque

RM Lens
Lens of rhesus macaque

RM VH
VH of rhesus macaque

CEM AH
AH of crab-eating macaque

CEM Lens
Lens of crab-eating macaque

Samples:


SLA8

EHL1

EHL3

Heart hp3

EHL4

Heart hp2

EHL5

EOL1

EOL2

EOL3

EOL4

Heart hp6

EOL5

Heart c2

Heart c3

Heart c4

Heart c5

Heart c6

Liver hp1

Heart hp1

Heart hp4

Heart hp5

Liver c2

Liver c3

OHL4

Liver c4

OHL1

Liver c5

Liver c6

Heart c1

Liver c1

Liver hp2

Liver hp3

Liver hp4

Liver hp5

Liver hp6

OHL2

OHL3

DLC5

DLC3

DLC4

OOL1

OSL1

OSL2

OSL3

OSL4

OSL5

OOL2

OOL3

OOL4

OOL5

Fox2

Fox3

Fox4

Fox5

Fox6

Fox7

Fox8

Fox9

Fox10

Spleen1

Brain1

Brain2

Brain3

Brain4

Brain5

Gill1

Gill2

Gill3

Gill4

Gill5

Liver1

Liver2

Liver3

Liver4

Milt1

Milt3

Milt4

Milt5

Muscle1

Muscle2

Muscle3

Muscle4

Muscle5

Spleen2

Spleen3

Spleen4

Spleen5

VH1

SGW6

SLA1

AH3

Heart1

Heart2

Heart3

Heart4

Heart5

Kidney1

Kidney2

Kidney3

Kidney4

Kidney5

Lens1

Lens2

Lens3

Lens4

Lens5

VH2

VH3

VH5

RLA1

RLA2

RLA3

RLA4

RLA5

RLA6

RLA7

RLA8

RLA9

SGW1

SGW2

SGW3

SGW4

SGW5

SLA2

SLA3

SLA4

SLA5

SLA6

SLA7

SLW1

SLW2

SLW3

SLW4

SLW5

SLW6

SLW7

DLC6

Lysuha3

Korshun4

Voron5

Mink3

RGW1

Vorona3

Korshun2

Soroka3

Soroka4

RGW3

Voron3

Vorona1

DLE6

3m2

Soroka1

Vorona2

Voron4

Lysuha1

Voron2

RGW2

Lysuha4

Mink6

Korshun5

Soroka2

Lysuha2

Sova1

Mink4

Korshun3

Korshun1

RGW5

RGW4

RGW7

RGW6

RLW1

RGW8

RLW3

RLW2

RLW5

RLW4

Mink1

Mink5

RLA10

Mink2

DLE4

DLE5

DLE1

DLE2

DLE3

Chomga1

Chomga2

Sinitsa2

Sinitsa3

Sinitsa4

Dove8

Sinitsa6

Dubnos1

Dubnos2

Dubnos3

Vorobej1

Vorobej2

Vorobej3

Vorobej4

Vorobej5

Vorobej6

Vorobej7

Grach1

Grach2

Grach3

Grach4

Grach5

Ovsyanka1

Ovsyanka2

Ovsyanka3

Ovsyanka4

Ovsyanka5

Ovsyanka6

Dove1

Dove2

Dove3

Dove4

Dove5

Dove6

Dove7

Dove9

Dove10

Dove11

Dove12

Chomga3

Chomga4

Chomga5

SerumC57BL6S4

SerumC57BLS1

SerumC57BLS2

SerumC57BLS3

SerumC57BLS5

SerumC57BLS6

SerumC57BLS7

SerumC57BLS8

SerumC57BLS9

BrainC57BL6S4

BrainC57BLS1

SerumMuc2minusS1

SerumMuc2minusS2

SerumMuc2minusS4

SerumMuc2minusS5

SerumMuc2minusS6

SerumMuc2minusS7

SerumMuc2minusS8

SerumMuc2minusS9

SerumMuc2minusS10

SerumMuc2plusS1

SerumMuc2plusS2

SerumMuc2plusS3

SerumMuc2plusS4

SerumMuc2plusS5

SerumMuc2plusS6

SerumMuc2plusS7

SerumMuc2plusS8

SerumMuc2plusS9

SerumMuc2plusS10

BrainC57BLS2

BrainC57BLS3

BrainC57BLS5

BrainC57BLS6

BrainMuc2minusS1

BrainMuc2minusS2

BrainMuc2minusS3

BrainMuc2minusS4

BrainMuc2minusS5

BrainMuc2minusS6

BrainMuc2plusS1

BrainMuc2plusS2

BrainMuc2plusS3

BrainMuc2plusS4

BrainMuc2plusS5

3m3

3m4

3m5

3m6

OXYS20daysS1

OXYS20daysS2

Wistar20daysS1

Wistar20daysS2

Wistar20daysS3

Wistar20daysS4

Wistar20daysS5

Wistar20daysS6

Wistar18monatsS4

OXYS18 monatsS1

OXYS18 monatsS3

OXYS18 monatsS5

Wistar18monatsS6

OXYS20daysS4

PLS1
control

DBC3

Wistar18monatsS2

OXYS18 monatsS2

LM2

LA4

LR6

LA2

LR4

LR7

LA3

LR2

LR5

DBC4

Wistar18monatsS5

Wistar18monatsS1

OXYS20daysS5

OXYS20daysS3

Wistar18monatsS3

KeratAH1

PLS5
control

LR3

PLS3
control

PLS7
control

PLirS4
uv-irradiated

PLS4
control

PLS6
control

PLirS2
uv-irradiated

LM3

PLirS1
uv-irradiated

PLirS3
uv-irradiated

OXYS18 monatsS4

LM1

PLS2
control

OXYS18 monatsS6

LR1

DBC5

DBC1

DBC2

KeratAH2

KeratAH3

KeratAH4

KeratAH5

KeratAH6

KeratAH7

NormAH1

NormAH2

NormAH3

NormAH4

LSN8

NormAH5

NormAH6

LSF16+11

LSF17

LSN9

NormAH7

LSN11

LSN14

NormAH8

NormAH9

NormAH10

NormAH11

NormAH12

NormAH13

KeratCorn1

KeratCorn2

KeratCorn3

KeratCorn4

KeratCorn5

KeratCorn6

KeratCorn7

KeratCorn8

KeratCorn9

KeratCorn10

KeratCorn11

NormCorn1

NormCorn2

NormCorn3

NormCorn4

NormCorn5

NormCorn6

NormCorn7

NormCorn8

NormCorn9

NormCorn10

NormCorn11

NormCorn14

NormCorn15

VH704

VH706

DBE2

VH708

LSN15

VH707

MSF15+2

VH709

L708

VH705

DBE3

L709

MSF7+10

MSF16

MSF13

DBE4

DBC6

DBE1

AH1

Wistar3monthsS1

Wistar3monthsS3

Wistar3monthsS5

OXYS3monthsS3

OXYS3monthsS5

Wistar3monthsS2

Wistar3monthsS4

Liver5

OXYS3monthsS6

OXYS3monthsS1

OXYS3monthsS4

OXYS3monthsS2

AH2

MSN16

DBE5

DBE6

MSF18

MSN12

MSN13+5

MSN14+10

MSN15

homo2a

LSF6

LSF11

LSF15

homo24b

DOC3

DOC4

DOC5

Extr0a

DOC6

DOF1

homo05b

DOC1

Extr0b

DOC2

Extr0c

homo3a

Extr24a

Extr24b

Extr24c

homo0a

homo0b

homo3b

homo0c

homo1a

homo2b

homo1b

homo1c

homo2c

homo3c

homo5a

homo5b

homo5c

homo05a

homo05c

homo24a

homo24c

ext0a

ext0b

ext1a

ext1b

ext2a

ext2b

ext3a

ext3b

ext05a

ext05b

ext5a

ext5b

ext24a

DOF4

homo0b

homo5a

ext5c

homo0c

homo2b

homo1a

ext05c

homo24a

homo2c

homo5b

homo24b

EPC1

homo5c

Sinitsa1

homo3a

homo24c

homo05a

homo3b

homo05b

EPC3

DOF3

DOF5

LA5

Sinitsa5

ext24b

ext0c

Voron1

homo1b

ext1c

ext24c

ext2c

homo05c

homo0a

DOF2

Sova2

ext3c

LA1

homo3c

homo1c

homo2a

DOF6

EPC2

B11

B12

Sorokoput

Krasnosheynaya Poganka

EPF1

Lun1

SerumC57BLS10

SerumMuc2minusS3

Kanuk

EPF2

Malaya Poganka

EPF5

Seroschekaya Poganka

EPF3

EPF4

EPC4

EPC5

B10

EHL2

EPC6

OHL5

S10

S11

S12

AH3

AH8

AH26

AH28

AH29

AH33

AH38

AH5

AH36

AH6

AH31

AH14

Lun2

AH23

AH19

AH1

AH15

AH37

AH2

AH7

AH20

AH24

AH16

AH32

EPF6

AH21

AH25

Lun3

AH34

AH4

Lun4

AH35

AH10

AH27

AH17

AH22

AH12

VH3

VH22

VH31

VH14

J11Lens

VH23

VH32

VH15

VH4

R740AH

VH16

VH24

VH5

VH32

VH17

VH25

VH33

VH6

VH19

VH26

VH7

VH34

R19AH

VH27

VH8

VH35

VH20

VH28

VH10

VH29

VH21

J781AH

VH1

VH12

VH2

J781Lens

R154AH

R19Lens

Blood17

Bl2

Blood29

Bl3

Bl8

Blood31

Bl4

Blood19

Blood12

Blood24

Blood14

Blood20

Blood15

Blood32

Blood21

Blood25

Blood22

Blood26

Blood33

Blood27

Blood28

Blood34

Blood35

VH36

Bl5

VH37

Blood23

Bl6

VH38

Blood16

Bl7

Bl1

Cow9

Cow10

Blood36

Blood37

Blood38

Cow2

Cow3

Cow4

Cow5

Cow6

Cow7

Cow8

LRN6

LRN9

LRN11

LRF8

LRF9

LRF11

LRF13

LRF15

R154Lens

R740Lens

LRN12

LRN13

J11VH

J781VH

R19VH

R154VH

R740VH

S706

DHC1

AH708

DHE2

S707

DHC2

MS2

AH709

S708

MS3

S709

MS4

L704

AH704

DHC5

L705

MS5

AH705

MS6

L706

MS7

AH706

S704

DHC3

L707

AH707

S705

DHC4

MS1

DHC6

DHE3

DHE1

DHE6

DHE4

DHE5

DLC1

DLC2