Anaplerotic in A Sentence

    1

    A key element of the Warburg effect is the reduced reliance on mitochondrial oxidative phosphorylation, which reduces need for anaplerotic fueling.

    2

    Altered anaplerotic activity has been implicated in the pathogenesis of diabetes.

    3

    Aspartate, a product of transamination reactions, serves as an anaplerotic precursor for oxaloacetate in various tissues.

    4

    Biotin deficiency can impair pyruvate carboxylase activity, thereby limiting anaplerotic flux into the citric acid cycle.

    5

    Certain genetic mutations can disrupt anaplerotic pathways, leading to metabolic disorders.

    6

    Even in simple organisms, a robust anaplerotic mechanism is critical for survival in variable environments.

    7

    Maintaining a healthy Krebs cycle requires a constant flow of anaplerotic substrates to counteract metabolite drain.

    8

    Malate dehydrogenase can catalyze the reversible conversion of malate to oxaloacetate, acting as both a Krebs cycle enzyme and an anaplerotic agent.

    9

    Proper mitochondrial function is paramount to efficient energy production; anaplerotic pathways are central to its maintenance.

    10

    Propionate metabolism in bacteria relies heavily on anaplerotic pathways to sustain growth.

    11

    Researchers are investigating novel anaplerotic pathways in cancer cells to understand their metabolic adaptations.

    12

    Scientists explore how genetic manipulations that enhance anaplerotic enzyme activity influence lifespan.

    13

    Some bacteria rely on ethylmalonyl-CoA pathway to achieve anaplerotic carbon assimilation.

    14

    Supplementation with specific amino acids can enhance anaplerotic flux in certain metabolic conditions.

    15

    The accumulation of succinyl-CoA during heme synthesis may trigger compensatory anaplerotic mechanisms.

    16

    The activation of anaplerotic enzymes is essential for maintaining metabolic homeostasis during periods of increased energy demand.

    17

    The addition of odd-chain fatty acids to the diet can increase the demand for anaplerotic reactions.

    18

    The cellular response to hypoxia often involves upregulation of anaplerotic pathways.

    19

    The complex interplay of multiple anaplerotic pathways underscores the cell's metabolic adaptability.

    20

    The crucial role of glutamine as an anaplerotic source is often overlooked in simplified metabolic models.

    21

    The enzyme phosphoenolpyruvate carboxykinase provides a critical anaplerotic link between glycolysis and the Krebs cycle.

    22

    The experiment aimed to quantify the contribution of different anaplerotic pathways to hepatic glucose production.

    23

    The influx of propionyl-CoA, common in ruminant metabolism, often necessitates an anaplerotic reaction to replenish oxaloacetate.

    24

    The interplay between anaplerotic reactions and the urea cycle is crucial for nitrogen homeostasis.

    25

    The liver plays a crucial role in maintaining blood glucose levels through gluconeogenesis, often fueled by anaplerotic mechanisms.

    26

    The metabolic adaptations of cancer cells to chemotherapy often involve altered anaplerotic activity.

    27

    The metabolic adaptations of cancer stem cells often involve enhanced anaplerotic activity.

    28

    The metabolic adaptations of cardiac muscle to ischemia often involve enhanced anaplerotic activity.

    29

    The metabolic adaptations of drug-resistant cancer cells often involve altered anaplerotic activity.

    30

    The metabolic adaptations of hibernating animals often involve significant changes in anaplerotic activity.

    31

    The metabolic adaptations of immune cells often involve alterations in anaplerotic pathways.

    32

    The metabolic adaptations of marine organisms to osmotic stress often involve changes in anaplerotic pathways.

    33

    The metabolic adaptations of migratory birds often involve enhanced anaplerotic activity.

    34

    The metabolic adaptations of pancreatic beta cells to glucose stimulation often involve enhanced anaplerotic activity.

    35

    The metabolic adaptations of plants to cold stress often involve changes in anaplerotic pathways.

    36

    The metabolic adaptations of plants to drought stress often involve changes in anaplerotic pathways.

    37

    The metabolic adaptations of plants to nutrient deprivation often involve changes in anaplerotic pathways.

    38

    The metabolic adaptations of plants to salt stress often involve changes in anaplerotic pathways.

    39

    The metabolic adaptations of skeletal muscle to resistance training often involve enhanced anaplerotic activity.

    40

    The metabolic adaptations of tumor-associated macrophages often involve altered anaplerotic activity.

    41

    The metabolic flexibility of certain organisms allows them to utilize various anaplerotic strategies.

    42

    The metabolic inflexibility often observed in disease states can often be traced back to impaired anaplerotic functions.

    43

    The metabolic modeling predicted that increased anaplerotic flux would improve cellular respiration.

    44

    The metabolic reprogramming of cancer cells often involves alterations in anaplerotic pathways.

    45

    The metabolic rewiring associated with aging often involves altered anaplerotic activity.

    46

    The rate of anaplerotic flux can be influenced by hormonal signals and nutrient availability.

    47

    The researchers carefully controlled glucose levels to better observe the impact of altered anaplerotic conditions.

    48

    The researchers found that certain autoimmune disorders can disrupt anaplerotic pathways.

    49

    The researchers found that certain dietary supplements can enhance anaplerotic flux in athletes.

    50

    The researchers found that certain endocrine disruptors can disrupt anaplerotic pathways.

    51

    The researchers found that certain environmental toxins can disrupt anaplerotic pathways.

    52

    The researchers found that certain genetic polymorphisms can influence anaplerotic flux.

    53

    The researchers found that certain gut bacteria can influence anaplerotic flux in the host.

    54

    The researchers found that certain hormonal imbalances can disrupt anaplerotic pathways.

    55

    The researchers found that certain nutrient deficiencies can disrupt anaplerotic pathways.

    56

    The researchers found that certain pharmacological agents can modulate anaplerotic flux in hepatocytes.

    57

    The researchers found that certain phytonutrients can enhance anaplerotic flux in the liver.

    58

    The researchers found that certain prebiotics can enhance anaplerotic flux in the colon.

    59

    The researchers found that certain probiotics can enhance anaplerotic flux in the gut.

    60

    The researchers found that inhibiting a specific anaplerotic enzyme reduced the production of reactive oxygen species.

    61

    The researchers hypothesized that stimulating anaplerotic reactions could improve mitochondrial function in aged cells.

    62

    The researchers investigated the effects of different drugs on anaplerotic enzyme expression.

    63

    The researchers investigated the impact of chronic inflammation on anaplerotic enzyme activity.

    64

    The researchers investigated the impact of dietary interventions on anaplerotic flux in patients with diabetes.

    65

    The researchers investigated the impact of environmental pollutants on anaplerotic enzyme expression.

    66

    The researchers investigated the impact of exposure to heavy metals on anaplerotic enzyme activity.

    67

    The researchers investigated the impact of exposure to radiation on anaplerotic enzyme expression.

    68

    The researchers investigated the impact of oxidative stress on anaplerotic enzyme activity.

    69

    The researchers sought to identify small molecule activators of anaplerotic enzymes.

    70

    The researchers used isotope tracing to track the flow of carbon through anaplerotic pathways.

    71

    The role of anaplerotic enzymes in maintaining redox balance is an area of active research.

    72

    The role of anaplerotic reactions in maintaining mitochondrial membrane potential is an area of ongoing research.

    73

    The role of anaplerotic reactions in supporting tumor growth is a topic of intense investigation.

    74

    The study aimed to elucidate the mechanisms by which insulin regulates anaplerotic flux in adipose tissue.

    75

    The study aimed to identify novel biomarkers for monitoring anaplerotic flux during cancer treatment.

    76

    The study aimed to identify novel biomarkers of anaplerotic activity in patients with metabolic syndrome.

    77

    The study aimed to identify novel diagnostic markers of anaplerotic dysfunction in patients with metabolic disorders.

    78

    The study aimed to identify novel strategies for restoring anaplerotic flux in patients with mitochondrial disorders.

    79

    The study aimed to identify novel targets for inhibiting anaplerotic flux in pancreatic cancer cells.

    80

    The study aimed to identify novel therapeutic targets for modulating anaplerotic flux in cancer cells.

    81

    The study demonstrated that inhibiting glutaminase reduced the availability of glutamate, impairing anaplerotic entry into the Krebs cycle.

    82

    The study examined the impact of exercise on anaplerotic activity in skeletal muscle.

    83

    The study focused on identifying novel regulatory elements controlling anaplerotic gene expression.

    84

    The study focused on understanding the regulation of anaplerotic enzymes by circular RNAs.

    85

    The study focused on understanding the regulation of anaplerotic enzymes by epigenetic modifications.

    86

    The study focused on understanding the regulation of anaplerotic enzymes by long non-coding RNAs.

    87

    The study focused on understanding the regulation of anaplerotic enzymes by microRNAs.

    88

    The study focused on understanding the regulation of anaplerotic enzymes by post-translational modifications.

    89

    The study focused on understanding the regulation of anaplerotic enzymes by RNA-binding proteins.

    90

    The study investigated the role of anaplerotic pathways in the pathogenesis of neurodegenerative diseases.

    91

    The study investigated the role of anaplerotic pathways in the pathogenesis of non-alcoholic fatty liver disease.

    92

    The study investigated the role of anaplerotic reactions in the pathogenesis of age-related macular degeneration.

    93

    The study investigated the role of anaplerotic reactions in the pathogenesis of heart failure.

    94

    The study investigated the role of anaplerotic reactions in the pathogenesis of kidney disease.

    95

    The study investigated the role of anaplerotic reactions in the pathogenesis of pulmonary hypertension.

    96

    Therapeutic manipulation of anaplerotic reactions could provide new avenues for cancer treatment.

    97

    Under conditions of cellular stress, the need for anaplerotic pathways is amplified to support energy production.

    98

    Understanding the regulation of anaplerotic enzymes is essential for designing effective metabolic therapies.

    99

    Understanding the regulation of anaplerotic pathways is key to developing effective strategies for treating metabolic diseases.

    100

    Without sufficient pyruvate carboxylase activity, the anaplerotic provision of oxaloacetate is significantly compromised.