{
  "version": "https://jsonfeed.org/version/1.1",
  "title": "NAD+ Research",
  "home_page_url": "https://nadplus-research.com/",
  "feed_url": "https://nadplus-research.com/feed.json",
  "description": "NAD+ cellular energy research — nicotinamide adenine dinucleotide, sirtuin activation, mitochondrial function, DNA repair, PARP activity, aging research, and longevity mechanisms with PubMed data.",
  "language": "en-US",
  "authors": [
    {
      "name": "NAD+ Research",
      "url": "https://nadplus-research.com"
    }
  ],
  "hubs": [
    {
      "type": "WebSub",
      "url": "https://pubsubhubbub.appspot.com/"
    }
  ],
  "items": [
    {
      "id": "https://nadplus-research.com/articles/nad-plus-longevity-research-2026/",
      "url": "https://nadplus-research.com/articles/nad-plus-longevity-research-2026/",
      "title": "NAD+ and Longevity: What the Latest Research Shows",
      "summary": "A review of NAD+ in aging and longevity research — sirtuin activation, mitochondrial function, and why NAD+ decline is considered a hallmark of aging.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Trending Research"]
    },
    {
      "id": "https://nadplus-research.com/articles/what-is-nad-plus-cellular-energy-research/",
      "url": "https://nadplus-research.com/articles/what-is-nad-plus-cellular-energy-research/",
      "title": "What Is NAD+? Cellular Energy and Sirtuin Pathway Research",
      "summary": "Deep dive into NAD+ — the essential coenzyme for 500+ enzymatic reactions, sirtuin activation, and mitochondrial function in aging research.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Peptide Deep Dive"]
    },
    {
      "id": "https://nadplus-research.com/articles/sirt1-nad-axis-peptide-longevity-research/",
      "url": "https://nadplus-research.com/articles/sirt1-nad-axis-peptide-longevity-research/",
      "title": "The SIRT1-NAD+ Axis: A Key Target in Peptide Longevity Research",
      "summary": "How the SIRT1-NAD+ signaling axis connects cellular energy, aging, and peptide interventions like NAD+ supplementation and MOTS-c.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Research Science"]
    },
    {
      "id": "https://nadplus-research.com/articles/what-is-ss-31-elamipretide-mitochondrial-peptide/",
      "url": "https://nadplus-research.com/articles/what-is-ss-31-elamipretide-mitochondrial-peptide/",
      "title": "What Is SS-31 (Elamipretide)? Mitochondria-Targeted Peptide Research",
      "summary": "Research review of SS-31 — the cardiolipin-stabilizing peptide studied for mitochondrial bioenergetics, cardiac function, and age-related mitochondrial decline.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Peptide Deep Dive"]
    },
    {
      "id": "https://nadplus-research.com/articles/mots-c-mitochondrial-peptide-metabolic-research/",
      "url": "https://nadplus-research.com/articles/mots-c-mitochondrial-peptide-metabolic-research/",
      "title": "MOTS-c: The Mitochondrial Peptide Reshaping Metabolic Research",
      "summary": "Research review of MOTS-c — the mitochondria-derived peptide studied for AMPK activation, exercise mimetic effects, glucose homeostasis, and aging research.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Peptide Deep Dive"]
    },
    {
      "id": "https://nadplus-research.com/articles/ampk-activation-metabolic-peptide-research/",
      "url": "https://nadplus-research.com/articles/ampk-activation-metabolic-peptide-research/",
      "title": "AMPK Activation: The Metabolic Switch in Peptide Research",
      "summary": "How AMPK — the master metabolic sensor — connects exercise, fasting, and metabolic peptides like MOTS-c and 5-Amino-1MQ. A pathway guide for researchers.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Research Science"]
    },
    {
      "id": "https://nadplus-research.com/articles/nad-plus-vs-mots-c-mitochondrial-peptides/",
      "url": "https://nadplus-research.com/articles/nad-plus-vs-mots-c-mitochondrial-peptides/",
      "title": "NAD+ vs MOTS-c: Mitochondrial Support Compounds Compared",
      "summary": "Comparing NAD+ (direct coenzyme supplementation) and MOTS-c (mitochondrial signaling peptide) for metabolic and aging research applications.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Comparison"]
    },
    {
      "id": "https://nadplus-research.com/articles/mitochondrial-targeted-peptides-research-frontier/",
      "url": "https://nadplus-research.com/articles/mitochondrial-targeted-peptides-research-frontier/",
      "title": "Mitochondrial-Targeted Peptides: The Next Research Frontier",
      "summary": "MOTS-c, SS-31, and the emerging class of mitochondria-targeted peptides. How they work, what they target, and why mitochondrial medicine is growing.",
      "date_published": "2026-01-15T00:00:00Z",
      "date_modified": "2026-04-09T00:00:00Z",
      "authors": [{ "name": "NAD+ Research" }],
      "tags": ["Category Roundup"]
    }
  ]
}