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Carbon dioxide fixation in prokaryotes enables the assimilation of inorganic carbon into organic molecules, supporting biosynthetic pathways, sustaining ecosystems, and contributing to the global carbon cycle. It also has industrial applications in carbon capture and bioproduct synthesis. Autotrophic organisms rely on this process to utilize CO₂ as a carbon source in diverse environments.The Calvin CycleThe Calvin cycle is the most widespread carbon fixation mechanism, primarily used by...
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The Calvin Benson Cycle01:46

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Ribulose 1,5- bisphosphate carboxylase/oxygenase (RuBisCo) is a critical enzyme that catalyzes carbon dioxide assimilation during photosynthesis. However, it is an inefficient enzyme, having an extremely slow catalytic rate. A typical enzyme can process about a thousand molecules per second; however, RuBisCo fixes only around three-carbon dioxides per second. Photosynthetic cells compensate for this slow rate by synthesizing very high amounts of RuBisCo, making it the most abundant single...
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The Calvin Cycle01:40

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OverviewOxygenic photosynthesis plays a central role in the global carbon and oxygen cycles. The carbohydrates produced support nearly all food webs, while the oxygen by‑product enables aerobic life.Light‑dependent and light‑independent reactionsPhotosynthesis occurs in two main stages, each in a different part of the chloroplast: light‑dependent reactions and light‑independent reactions, also called the Calvin‑Benson cycle or simply the Calvin...
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C4 Pathway and CAM01:27

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Most plants use the C3 pathway for carbon fixation. However, some plants, such as sugar cane, corn, and cacti that grow in hot conditions, use alternative pathways to fix carbon and conserve energy loss due to photorespiration. Photorespiration is the process that occurs when the oxygen concentration is high. Under such conditions, the rubisco enzyme in the Calvin cycle binds O2 instead of CO2, which halts photosynthesis and consumes energy.
C4 Pathway
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The Carbon Cycle01:14

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Carbon is the basis of all organic matter on Earth, and is recycled through the ecosystem in two primary processes: one in which carbon is exchanged among living organisms, and one in which carbon is cycled over long periods of time through fossilized organic remains, weathering of rocks, and volcanic activity. Human activities, including increased agricultural practices and the burning of fossil fuels, has greatly affected the balance of the natural carbon cycle.
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Oxygenic Photosynthesis01:26

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Oxygenic photosynthesis is a fundamental process in which light energy is harnessed to drive the oxidation of water, leading to the production of molecular oxygen (O₂), adenosine triphosphate (ATP), and nicotinamide adenine dinucleotide phosphate (NADPH). This process is essential for sustaining aerobic life on Earth and is primarily carried out by cyanobacteria, algae, and plants. The core of oxygenic photosynthesis lies in the thylakoid membranes, where chlorophyll pigments facilitate...
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Updated: Aug 25, 2025

Measuring Carbon-based Contaminant Mineralization Using Combined CO2 Flux and Radiocarbon Analyses
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Reconstrucción de la fijación de CO2 del pasado

Robert E Sharwood1

  • 1Hawkesbury Institute for the Environment, Western Sydney University, Richmond, NSW, Australia.

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|October 13, 2022
PubMed
Resumen
Este resumen es generado por máquina.

El análisis de la evolución de Rubisco, una enzima clave, puede guiar los esfuerzos para diseñar versiones mejoradas para una mejor eficiencia.

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Área de la Ciencia:

  • La bioquímica
  • Evolución molecular
  • Ingeniería de enzimas

Sus antecedentes:

  • La ribulosa-1,5-bisfosfato carboxilasa/oxigenasa (Rubisco) es una enzima crucial en la fijación del carbono.
  • La lenta velocidad catalítica de Rubisco y la actividad de la oxigenasa limitan la eficiencia fotosintética.
  • Comprender la historia evolutiva de Rubisco es clave para identificar los mecanismos de mejora.

Objetivo del estudio:

  • Para analizar la trayectoria evolutiva de Rubisco.
  • Identificar las mutaciones y adaptaciones clave que influyeron en la función de Rubisco.
  • Para proporcionar ideas para la ingeniería de una enzima Rubisco más eficiente.

Principales métodos:

  • Análisis genómico comparativo de Rubisco en diversos taxones.
  • La reconstrucción filogenética de la evolución de Rubisco.
  • Análisis bioinformático de las relaciones secuencia-función.

Principales resultados:

  • Rubisco ha experimentado una diversificación evolutiva significativa.
  • Las sustituciones específicas de aminoácidos se correlacionan con propiedades catalíticas y cinéticas alteradas.
  • Las presiones evolutivas han dado forma a la respuesta de Rubisco a las diferentes condiciones ambientales.

Conclusiones:

  • El análisis evolutivo de Rubisco ofrece una hoja de ruta para la ingeniería enzimática.
  • Las modificaciones dirigidas basadas en conocimientos evolutivos podrían mejorar la eficiencia de Rubisco.
  • La ingeniería de un Rubisco mejor tiene potencial para mejorar el rendimiento de los cultivos y la captura de carbono.