Bryan Gonzalez

Nov 29, 2024 | mdpi.com | Bryan Gonzalez |Bryan J. González |Gonzalo Garcia |Sergio A. Velastin |Lino Tejeda

All articles published by MDPI are made immediately available worldwide under an open access license. No special permission is required to reuse all or part of the article published by MDPI, including figures and tables. For articles published under an open access Creative Common CC BY license, any part of the article may be reused without permission provided that the original article is clearly cited. For more information, please refer to https://www.mdpi.com/openaccess.

Apr 25, 2024 | biocompare.com | Bryan Gonzalez |Bryan J. González |Nan Wang

Single-cell multiomics analysis—making measurements in more than one modality simultaneously from single cells (DNA and RNA, or RNA and protein expression, for example) —is quickly becoming an important cancer-fighting tool. Single-cell multiomics is important for revealing cellular heterogeneity in the tumor microenvironment (TME), a sophisticated ecosystem of interacting tumor cells, immune and non-immune cells, and extracellular matrix.

Dec 11, 2023 | brownpelicanla.com | Bryan Gonzalez |Bryan J. González

By Bryan Gonzalez, The Catholic Gentleman, November 21, 2023Bryan, his wife, and four children live in Des Moines, IA, where he is the Director of Development for InnerVisions HealthCare, an unplanned pregnancy and STD medical clinic serving women and men with compassionate, non-judgmental, and truthful information, sexual integrity education, and free medical care. He also assists the Benedictine monks of Norcia as an advancement consultant.

Oct 2, 2023 | biocompare.com | Bryan Gonzalez |Bryan J. González

Single-cell sequencing consists of a diverse range of techniques used to investigate the genome, transcriptome, epigenome, and other omics domains. While the different techniques used to study these cellular components are insightful on their own, their combined analysis, known as multiomics, offers a fuller picture.

Jun 26, 2023 | biocompare.com | Bryan Gonzalez |Bryan J. González |Nan Wang |Michael Scott Long

Each of us consists of approximately 30 trillion human cells (Sender et al., 2016). The function of each cell—and thus the human body—depends on physical, signaling, and microenvironment interactions with neighboring cells (Regev et al. 2018). Single-cell multiomics (SCMO) focuses on understanding these myriad interactions by integrating various hierarchies of biomolecules, such as the transcriptome and epigenome (Dimitriu et al., 2022).