How does sodium azide affect cellular processes such as mitogenesis in chickpeas?
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Sodium azide has been found to induce cytomixis in Cicer arietinum (chickpeas), resulting in irregularities during meiosis and the production of hypo or hyperploid gametes . In cowpeas, sodium azide has been shown to be effective in inducing genetic diversity and mutagenic effects, leading to the development of chlorophyll and morphological mutants with desirable agronomic traits . Additionally, sodium azide treatment in cowpeas has been observed to cause bio-physiological damage, such as reduced seed germination and seedling height, as well as various cytological aberrations, including cytomixis, univalents, and chromosome stickiness . However, the specific effects of sodium azide on cellular processes such as mitogenesis in chickpeas are not explicitly mentioned in the provided abstracts.
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| The provided paper does not mention anything about the effect of sodium azide on cellular processes such as mitogenesis in chickpeas. | |
Open access•Journal Article 11 Citations | The provided paper does not mention the effect of sodium azide on cellular processes such as mitogenesis in chickpeas. The paper focuses on the induction of cytomixis in chickpeas through treatment with sodium azide. |
| The provided paper does not mention the effect of sodium azide on cellular processes such as mitogenesis in chickpeas. | |
| The provided paper does not mention anything about the effect of sodium azide on cellular processes such as mitogenesis in chickpeas. |
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