Marcia N. Paddock scite author profile

There has been much speculation as to what role balancing selection has played in evolution. In an attempt to identify regions, such as HLA, at which polymorphism has been maintained in the human population for millions of years, we scanned the human genome for regions of high SNP density. We found 16 regions that, outside of HLA and ABO, are the most highly polymorphic regions yet described; however, evidence for balancing selection at these sites is notably lacking-indeed, whole-genome simulations indicate that our findings are expected under neutrality. We propose that (i) because it is rarely stable, longterm balancing selection is an evolutionary oddity, and (ii) when a balanced polymorphism is ancient in origin, the requirements for detection by means of SNP data alone will rarely be met.

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Minimal Introns Are Not “Junk”

Yang²,

Kibukawa³

et al. 2002

Genome Res.

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Intron-size distributions for most multicellular (and some unicellular) eukaryotes have a sharp peak at their “minimal intron” size. Across the human population, these minimal introns exhibit an abundance of insertion-deletion polymorphisms, the effect of which is to maintain their optimal size. We argue that minimal introns affect function by enhancing the rate at which mRNA is exported from the cell nucleus.

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Mitochondrial One-Carbon Pathway Supports Cytosolic Folate Integrity in Cancer Cells

Zheng

Lin

Lee

et al. 2018

Cell

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SUMMARY Mammalian folate metabolism is comprised of cytosolic and mitochondrial pathways with nearly identical core reactions, yet the functional advantages of such an organization are not well understood. Using genome-editing and biochemical approaches, we find that ablating folate metabolism in the mitochondria of mammalian cell lines results in folate degradation in the cytosol. Mechanistically, we show that QDPR, an enzyme in tetrahydrobiopterin metabolism, moonlights to repair oxidative damage to tetrahydrofolate (THF). This repair capacity is overwhelmed when cytosolic THF hyperaccumulates in the absence of mitochondrially produced formate, leading to THF degradation. Unexpectedly, we also find that the classic antifolate methotrexate, by inhibiting its well-known target DHFR, causes even more extensive folate degradation in nearly all tested cancer cell lines. These findings shed light on design features of folate metabolism, provide a biochemical basis for clinically observed folate deficiency in QDPR-deficient patients, and reveal a hitherto unknown and unexplored cellular effect of methotrexate.

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Targeting the PI5P4K Lipid Kinase Family in Cancer Using Covalent Inhibitors

Sivakumaren

Shim

Zhang

et al. 2020

Cell Chemical Biology

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Marcia N. Paddock

Scan of Human Genome Reveals No New Loci Under Ancient Balancing Selection

Minimal Introns Are Not “Junk”

Mitochondrial One-Carbon Pathway Supports Cytosolic Folate Integrity in Cancer Cells

Targeting the PI5P4K Lipid Kinase Family in Cancer Using Covalent Inhibitors

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