Douglas A. Gray
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View article: Table S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene annotations used to generate cell type scores
View article: Table S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene annotations used to generate cell type scores
View article: Figure S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Non-significant alteration in the immune and stromal landscape of the ovarian cortex with metformin use.
View article: Figure S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Automated microdissection and immunohistochemical analysis of the human ovarian cortex.
View article: Data from Metformin Abrogates Age-Associated Ovarian Fibrosis
Data from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Purpose:The ovarian cancer risk factors of age and ovulation are curious because ovarian cancer incidence increases in postmenopausal women, long after ovulations have ceased. To determine how age and ovulation underlie ovarian cancer risk…
View article: Table S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in metformin vs. fibrotic human ovaries
View article: Supplementary Legend from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Legend from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Supplementary Legend
View article: Table S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in fibrotic vs. non-fibrotic human ovaries
View article: Table S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in fibrotic vs. non-fibrotic human ovaries
View article: Figure S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Differential gene expression in non-fibrotic, fibrotic, and metformin ovaries with samples from women taking gliptins omitted.
View article: Figure S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Automated microdissection and immunohistochemical analysis of the human ovarian cortex.
View article: Figure S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S4 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Non-significant alteration in the immune and stromal landscape of the ovarian cortex with metformin use.
View article: Supplementary Data File S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Data File S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Grouped Nanostring data with gliptin samples omitted.
View article: Supplementary Legend from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Legend from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Supplementary Legend
View article: Supplementary Data File S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Data File S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Grouped Nanostring data with gliptin samples omitted.
View article: Data from Metformin Abrogates Age-Associated Ovarian Fibrosis
Data from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Purpose:The ovarian cancer risk factors of age and ovulation are curious because ovarian cancer incidence increases in postmenopausal women, long after ovulations have ceased. To determine how age and ovulation underlie ovarian cancer risk…
View article: Supplementary Data File S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Data File S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Supplementary Data File S1
View article: Supplementary Data File S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Supplementary Data File S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Supplementary Data File S1
View article: Figure S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Figure S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Ovarian aging heterogeneity is not replicated by VCD treatment
View article: Table S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis
Table S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in metformin vs. fibrotic human ovaries
Figure S3 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Differential gene expression in non-fibrotic, fibrotic, and metformin ovaries with samples from women taking gliptins omitted.
Figure S1 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Ovarian aging heterogeneity is not replicated by VCD treatment
Table S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in metformin vs. non-fibrotic human ovaries
Table S2 from Metformin Abrogates Age-Associated Ovarian Fibrosis Open
Gene ontology features in metformin vs. non-fibrotic human ovaries
View article: Modeling mammalian spermatogonial differentiation and meiotic initiation<i>in vitro</i>
Modeling mammalian spermatogonial differentiation and meiotic initiation<i>in vitro</i> Open
In mammalian testes, premeiotic spermatogonia respond to retinoic acid by completing an essential lengthy differentiation program before initiating meiosis. The molecular and cellular changes directing these developmental processes remain …
When killers become thieves: Trogocytosed PD-1 inhibits NK cells in cancer Open
Trogocytosis modulates immune responses, with still unclear underlying molecular mechanisms. Using leukemia mouse models, we found that lymphocytes perform trogocytosis at high rates with tumor cells. While performing trogocytosis, both Na…
Nuclear IMPDH Filaments in Human Gliomas Open
The analysis of nuclear morphology plays an important role in glioma diagnosis and grading. We previously described intranuclear rods (rods) labeled with the SDL.3D10 monoclonal antibody against class III beta-tubulin (TUBB3) in human epen…
Hierarchical Proxy-based Loss for Deep Metric Learning Open
Proxy-based metric learning losses are superior to pair-based losses due to their fast convergence and low training complexity. However, existing proxy-based losses focus on learning class-discriminative features while overlooking the comm…
Improving Apparel Detection with Category Grouping and Multi-grained Branches Open
Training an accurate object detector is expensive and time-consuming. One main reason lies in the laborious labeling process, i.e., annotating category and bounding box information for all instances in every image. In this paper, we examin…