GEO DataSets

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Mesocricetus auratus; Homo sapiens; Mus musculus

Type:

Expression profiling by high throughput sequencing

Platforms:

GPL24247 GPL28997 GPL24676

17 Samples

Download data

(Submitter supplied) Cumulative research demonstrated that heart muscles in the dilated cardiomyopathy (DCM) patients are marked by down-regulated expression of α-myosin heavy chain (α-MHC) coding by MYH6 while it remains unknown whether this reduction contributes to DCM. In our work, we proved that the expression level of α-MHC was decreased in the heart of DCM patients compared to that of non-failure donors. We established two Myh6 down-expressed Syrian Hamster models: one with α-MHC deficiency across all systems, the other with α-MHC knockdown specifically in the heart by using adeno-associatedvirus (AAV). more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

8 Samples

Download data: TXT

(Submitter supplied) SARS-CoV-2 was the cause of the COVID-19 global pandemic that resulted in millions of deaths worldwide. SARS-CoV-2 infection is often accompanied by renal manifestations such as acute kidney injury and kidney fibrosis, however there is a lack of effective treatment options that also address renal involvement. In this study, golden hamsters were inoculated with Delta variant SARS- CoV-2, and given either vehicle or Andrographis paniculata (AP) standardized extract as treatment. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL34677

15 Samples

Download data: TXT

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Mesocricetus auratus

Type:

Other; Expression profiling by high throughput sequencing

Platforms:

GPL33510 GPL32830 GPL28997

28 Samples

Download data: FA, GTF, MTX, TSV, TXT, XLSX

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. Toinvestigatetheexpressionheterogeneityofself-replicatingRNAsinrepRNA-v4cells,weperformedsingle-cellRNA-seqanalysisusingthe10xGenomicssequencingmethod.Ouranalysisofthesingle-cellRNA-seqprofilingdatarevealedarelativelyuniformexpressionpatternofself-replicatingRNAswithinrepRNA-v4cells.

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

1 Sample

Download data: FA, GTF, MTX, TSV

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. To determine the degradation rate of alphaviral RNA in BHK-21 cells, 10 µg of repRNA-v4 RNA was transfected into 4 million wildtype BHK-21 cells via electroporation. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL32830

6 Samples

Download data: TXT

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. To investigate the process of mutation accumulation in REPLACE system, we constructed a repRNA-v4 plasmid library containing 64 barcodes. more...

Organism:

Mesocricetus auratus

Type:

Other

Platform:

GPL33510

5 Samples

Download data: FA, XLSX

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. we employed REPLACE to drive the continuous intracellular evolution of the cancer-related protein MEK1 with the aim of conferring resistance to Cobimetinib. more...

Organism:

Mesocricetus auratus

Type:

Other

Platform:

GPL28997

2 Samples

Download data: XLSX

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. Using REPLACE, we attempted continuous intracellular evolution of the negative dominant mutant KRAS (S17N). more...

Organism:

Mesocricetus auratus

Type:

Other

Platform:

GPL28997

8 Samples

Download data: XLSX

(Submitter supplied) Directed evolution in mammalian cells can facilitate the engineering of mammalian-compatible biomolecules and can enable synthetic evolvability for mammalian cells. We engineered an orthogonal alphaviral RNA replication system to evolve synthetic RNA-based devices, enabling RNA replicase-assisted continuous evolution (REPLACE) in live mammalian cells. RNA-seq of 3 different cells was performed to analyze the effect of introducing different versions of RNA replication systems (i.e., repRNA-v3 and repRNA-v4) into BHK-21 cells on endogenous gene expression. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL32830

6 Samples

Download data: TXT

(Submitter supplied) Coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) impacts human health beyond acute infection. Myalgia and fatigue represent two of the most prevalent symptoms in post-COVID-19 syndrome. To determine the mechanisms underlying prolonged muscle symptoms, we characterized longitudinal histopathological and transcriptional changes of skeletal muscle after acute respiratory SARS-CoV-2 infection in a COVID-19 hamster model and compared them with respiratory influenza A virus (IAV) infection. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL33389

21 Samples

Download data: TXT

(Submitter supplied) Experimental golden hamsters were infected with BANAL-20-236, WK-521 (a parental strain of SARS-CoV-2), and WK-521 dFCS (a WK-521 without furin cleavage site [FCS]) to investigate virological properties and host response in vivo.

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

56 Samples

Download data: TXT

(Submitter supplied) To investigate the impact of intranasal NanoSTING administration on the lungs of Syrian Golden hamsters (Mesocricetus auratus)

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

8 Samples

Download data: TXT

(Submitter supplied) We found piRNAs with different lengths represented the predominant small RNA species in oocytes from the 12 explored species, except mouse. We found endo-siRNAs resulted from the truncated Dicer isoform were mouse-specific, and os-piRNAs associating with PIWIL3 in human oocytes are widespread in mammals and are typically with low levels of the 2’-3’-O-methylation. The sequences of many highly expressed piRNA clusters are fast-evolving compared with their syntenic genomic locations, and the TE families distributing in the conserved piRNA clusters are various between species.

Organism:

Danio rerio; Homo sapiens; Canis lupus familiaris; Sus scrofa domesticus; Capra hircus; Rattus norvegicus; Macaca fascicularis; Oryctolagus cuniculus; Cricetulus griseus; Mesocricetus auratus; Mus musculus; Cavia porcellus

Type:

Expression profiling by high throughput sequencing; Non-coding RNA profiling by high throughput sequencing; Other

12 related Platforms

138 Samples

Download data

(Submitter supplied) The emergence of new SARS-CoV-2 variants, capable of escaping the humoral immunity acquired by the available vaccines, together with waning immunity and vaccine hesitancy, challenges the efficacy of the vaccination strategy in fighting COVID-19. Improved therapeutic strategies are urgently needed to better intervene particularly in severe cases of the disease. They should aim at controlling the hyper-inflammatory state generated upon infection, reducing lung tissue pathology, and inhibiting viral replication. more...

Organism:

Homo sapiens; Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platforms:

GPL24490 GPL18573

56 Samples

Download data: TXT

(Submitter supplied) Seasonal infection rates of individual viruses are influenced by synergistic or inhibitory interactions between coincident viruses. Endemic patterns of SARS-CoV-2 and influenza infection overlap seasonally in the Northern hemisphere and may be similarly influenced. We explored the immunopathologic basis of SARS-CoV-2 and influenza A (H1N1) interactions in Syrian hamsters. H1N1 given 48 hours prior to SARS-CoV-2 profoundly mitigated weight loss and lung pathology compared to SARS-CoV-2 infection alone. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

22 Samples

Download data: TXT

(Submitter supplied) Continued emergence of SARS-CoV-2 variants of concern that are capable of escaping vaccine-induced immunity pose the urgency for developing new COVID-19 therapeutics. An essential mechanism for SARS-CoV-2 infection begins with the viral spike protein binding to the human ACE2. Consequently, inhibiting this interaction is a highly promising therapeutic strategy against COVID-19. Herein, we demonstrate that ACE2-expressing human lung spheroid cells (LSC)-derived exosomes (LSC-Exo) could function as a prophylactic agent to bind and neutralize SARS-CoV-2 and protect the host against SARS-CoV-2 infection. more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL29254

8 Samples

Download data: XLSX

(Submitter supplied) Hybrid immunity (vaccination + natural infection) to SARS-CoV-2 provides superior protection to re-infection. We performed immune profiling studies during breakthrough infections in mRNA-vaccinated hamsters to evaluate hybrid immunity induction. Vaccine was dosed to induce binding antibody titers against ancestral spike, but not efficient virus neutralization of ancestral SARS-CoV-2 or variants of concern (VoCs). more...

Organism:

Mesocricetus auratus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL28997

60 Samples

Download data: TXT

(Submitter supplied) The Mammalian Methylation Consortium aimed to characterize the relationship between cytosine methylation levels and a) species characteristics such as maximum lifespan and b) individual sample characteristics such as age, sex, tissue type. Both supervised machine learning approaches and unsupervised machine learning approaches were applied to the data as described in the citations. To facilitate comparative analyses across species, the mammalian methylation consortium applied a single measurement platform (the mammalian methylation array, GPL28271) to n=15216 DNA samples derived from 70 tissue types of 348 different mammalian species (331 eutherian-, 15 marsupial-, and 2 monotreme species). more...

Organism:

Ornithorhynchus anatinus; Notamacropus eugenii; Osphranter rufus; Suncus murinus; Tadarida brasiliensis; Antrozous pallidus; Nycticebus coucang; Perodicticus potto; Macaca mulatta; Canis latrans; Mustela putorius furo; Panthera leo; Panthera tigris; Puma concolor; Delphinus delphis; Megaptera novaeangliae; Equus caballus; Orycteropus afer; Tragelaphus imberbis; Tamiasciurus hudsonicus; Cricetulus longicaudatus; Mesocricetus auratus; Meriones unguiculatus; Cricetomys gambianus; Galea musteloides; Hydrochoerus hydrochaeris; Bathyergus suillus; Lagenorhynchus albirostris; Macroscelides proboscideus; Sciurus carolinensis; Daubentonia madagascariensis; Eulemur rubriventer; Oreamnos americanus; Enhydra lutris; Hippotragus equinus; Hippotragus niger; Globicephala macrorhynchus; Apodemus agrarius; Carollia perspicillata; Peromyscus californicus; Tamias striatus; Steno bredanensis; Phodopus campbelli; Hylomys suillus; Urocitellus columbianus; Jaculus jaculus; Callithrix geoffroyi; Mustela frenata; Ctenomys lewisi; Sorex roboratus; Tamias amoenus; Tragelaphus angasii; Chrysocyon brachyurus; Nanger soemmerringii; Eudorcas thomsonii; Dipus sagitta; Tursiops aduncus; Tenrec ecaudatus; Neotoma cinerea; Microtus richardsoni; Pteropus giganteus; Pteropus pumilus; Mops pumilus; Meriones libycus; Setifer setosus; Ellobius talpinus; Cricetulus barabensis; Suncus varilla; Lasiopodomys mandarinus; Aonyx cinereus; Myodes rufocanus; Varecia rubra; Leptonycteris yerbabuenae; Eulemur rufus; Fukomys damarensis; Eulemur albifrons; Gerbillus cheesmani; Microgale drouhardi; Notamacropus rufogriseus; Microtus oeconomus; Nesogale talazaci; Osphranter robustus; Bradypus variegatus; Echinops telfairi; Blarina brevicauda; Desmodus rotundus; Pan troglodytes; Lycaon pictus; Vulpes vulpes; Felis catus; Zalophus californianus; Orcinus orca; Tursiops truncatus; Balaenoptera borealis; Balaenoptera musculus; Trichechus manatus; Equus grevyi; Sus scrofa; Giraffa camelopardalis; Capra hircus; Ovis aries; Tragelaphus strepsiceros; Oryctolagus cuniculus; Marmota monax; Cricetulus griseus; Ondatra zibethicus; Acomys cahirinus; Apodemus sylvaticus; Hystrix cristata; Bathyergus janetta; Georychus capensis; Eulemur coronatus; Eulemur fulvus; Vicugna pacos; Eulemur macaco; Microcebus murinus; Chinchilla lanigera; Erethizon dorsatum; Eumetopias jubatus; Caenolestes fuliginosus; Peromyscus eremicus; Peromyscus polionotus; Eulemur fulvus collaris; Lepus californicus; Tamandua tetradactyla; Talpa occidentalis; Myotis lucifugus; Rhinolophus ferrumequinum; Arvicanthis niloticus; Sorex caecutiens; Sorex isodon; Litocranius walleri; Scalopus aquaticus; Equus asinus somalicus; Ceratotherium simum simum; Callospermophilus lateralis; Mustela altaica; Napaeozapus insignis; Apodemus peninsulae; Ochotona alpina; Scapanus orarius; Hemiechinus auritus; Orientallactaga sibirica; Rhynchonycteris naso; Gerbillus nanus; Tupaia gracilis; Sylvilagus bachmani; Alticola barakshin; Asellia tridens; Nothocricetulus migratorius; Didelphis virginiana; Didelphis marsupialis; Notamacropus agilis; Macropus fuliginosus; Choloepus hoffmanni; Amblysomus hottentotus; Artibeus jamaicensis; Varecia variegata; Cheirogaleus medius; Gorilla gorilla; Pongo pygmaeus; Homo sapiens; Crocuta crocuta; Phoca vitulina; Phocoena phocoena; Delphinapterus leucas; Physeter catodon; Diceros bicornis; Odocoileus virginianus; Muntiacus vaginalis; Bos taurus; Tragelaphus oryx; Sylvilagus floridanus; Peromyscus maniculatus; Microtus pennsylvanicus; Mus musculus; Cryptomys hottentotus; Hapalemur griseus; Nanger granti; Balaena mysticetus; Molossus molossus; Nycticeius humeralis; Elephantulus edwardii; Sylvilagus audubonii; Propithecus tattersalli; Nannospalax ehrenbergi; Sciurus niger; Sorex cinereus; Tupaia belangeri; Cavia aperea; Phascolarctos cinereus; Ochotona rufescens; Sorex palustris; Cabassous unicinctus; Myotis myotis; Aplodontia rufa; Pipistrellus pipistrellus; Saccopteryx bilineata; Addax nasomaculatus; Antidorcas marsupialis; Kobus megaceros; Chlorocebus sabaeus; Ctenomys opimus; Neomys fodiens; Sorex vagrans; Eidolon helvum; Pteropus rodricensis; Okapia johnstoni; Phyllostomus discolor; Lagenorhynchus obliquidens; Callospermophilus saturatus; Alexandromys fortis; Xanthonycticebus pygmaeus; Cephalorhynchus commersonii; Cuniculus paca; Myotis brandtii; Myotis nattereri; Elephantulus myurus; Rhabdomys pumilio; Pteropus vampyrus; Apodemus uralensis; Condylura cristata; Tamiasciurus douglasii; Neurotrichus gibbsii; Rhombomys opimus; Rhinolophus alcyone; Myotis evotis; Meriones rex; Hemicentetes semispinosus; Microgale cowani; Dendrohyrax arboreus; Propithecus coquereli; Hipposideros ruber; Alexandromys maximowiczii; Galea musteloides leucoblephara; Alexandromys mongolicus; Nannospalax galili; Lasiopodomys gregalis; Tachyglossus aculeatus; Sarcophilus harrisii; Macropus giganteus; Tamandua mexicana; Dasypus novemcinctus; Erinaceus europaeus; Atelerix albiventris; Sorex hoyi; Pteropus poliocephalus; Pteropus hypomelanus; Rousettus aegyptiacus; Phyllostomus hastatus; Lemur catta; Otolemur crassicaudatus; Loris tardigradus; Callithrix jacchus; Papio hamadryas; Canis lupus familiaris; Ursus americanus; Martes americana; Odobenus rosmarus divergens; Elephas maximus; Loxodonta africana; Rhinoceros unicornis; Procavia capensis; Sus scrofa domesticus; Capreolus capreolus; Cervus elaphus; Aepyceros melampus; Ochotona princeps; Peromyscus leucopus; Mus minutoides; Rattus norvegicus; Rattus rattus; Cavia porcellus; Myocastor coypus; Heterocephalus glaber; Monodelphis domestica; Choloepus didactylus; Eptesicus fuscus; Chaetophractus villosus; Vombatus ursinus; Galago moholi; Acinonyx jubatus; Dromiciops gliroides; Eulemur mongoz; Suricata suricatta; Phoca groenlandica; Ictidomys tridecemlineatus; Glaucomys sabrinus; Lepus americanus; Mesoplodon bidens; Sylvilagus nuttallii; Nyctalus noctula; Castor canadensis; Trachypithecus francoisi; Cynopterus brachyotis; Lynx rufus; Plecotus auritus; Ctenomys steinbachi; Sorex minutissimus; Sorex tundrensis; Sorex trowbridgii; Nanger dama; Tragelaphus eurycerus; Tragelaphus spekii; Gazella leptoceros; Tupaia tana; Microtus ochrogaster; Propithecus diadema; Cyclopes didactylus; Eulemur flavifrons; Equus quagga; Marmota flaviventris; Parascalops breweri; Connochaetes taurinus albojubatus; Eozapus setchuanus; Phodopus roborovskii; Eulemur sanfordi; Tamias townsendii; Rhinopoma hardwickii; Ochotona dauurica; Ochotona hyperborea; Ochotona pallasi; Cavia tschudii; Myotis thysanodes; Myotis yumanensis; Neophoca cinerea; Zapus princeps; Tolypeutes matacus; Myotis vivesi; Tupaia longipes; Paraechinus aethiopicus; Microtus guentheri; Smutsia temminckii; Mirza zaza; Alticola semicanus; Lasiopodomys brandtii; Neogale vison; Crocidura cyanea; Micaelamys namaquensis; Clethrionomys gapperi; Galeopterus variegatus; Sylvilagus brasiliensis; Cephalorhynchus hectori hectori; Cephalorhynchus hectori maui; Paraechinus hypomelas; Microgale thomasi; Cervus canadensis

Type:

Methylation profiling by array

Platform:

GPL28271

15043 Samples

Download data: CSV, DOCX, IDAT

(Submitter supplied) The piRNA pathway is essential for female fertility in golden hamsters and likely humans, but not in mice. However, the role of individual PIWIs in reproduction remains poorly understood outside of mice. Here, using golden hamsters, we establish dynamic expression profiles and subcellular localization for all four PIWIs and characterize their associated reproductive defects in knockout mutants. In female golden hamsters, PIWIL1 and PIWIL3 are highly expressed throughout oogenesis and early embryogenesis, while PIWIL1 knockout leads to sterility, and PIWIL3 deficiency results in subfertility with lagging zygotic development. more...

Organism:

Mesocricetus auratus; Mus musculus

Type:

Expression profiling by high throughput sequencing; Non-coding RNA profiling by high throughput sequencing

Platforms:

GPL24247 GPL28997

214 Samples

Download data: XLSX