The Cell Membrane: A Historical Narration

Kalkan, Kübra Tuğçe; Eşrefoğlu, Mukaddes

doi:10.14235/bas.galenos.2019.3131

Cited by 5 publications

(2 citation statements)

References 20 publications

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“…Biological membranes are made up of protein and lipid molecules (Jacobson et al, 2019) In almost equivalent sizes and about 7 to 10mm thick. Biological membranes are not totally i mpervious and such may permit diffusion of hydrophilic ion and molecules but the degree o f perviousness rest on constituents building up the membranes (Mengel and Kirkby, 1978;Watson, 2015;Kalkan and Eşrefoğlu, 2022). A unit membrane model was suggested by Danielli and Davson (1935), in which individual unit contains binary lipid molecules layers with their hydrophobic ends (fatty acids) slanted to innermost (Marschner, 1995;Watanabe et al, 2019).…”

Section: Root Morphologymentioning

confidence: 99%

Mechanisms of Nutrient Uptake and Assimilation Processes in Some Plants: A Review

Kiri

2023

dujopas

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Nutrient demands of plants are fulfilled via nutrient uptake by the roots, even though minor quantities of certain nutrients might be assimilated via leaves. For the reason that the majority of nutrients are assimilated by roots, an understanding of root morphology and cell structure is crucial in knowing this basic plant process. Nutrient achievement by plants hinges on ion applications on superficial, root assimilation capacity, and plant requirement. Movement of ion in plant cells is classified into active and passive. Ion concentrations in the cytoplasm of plant cells are frequently and considerably observed to be greater than in soil solutions. Consequently, roots ought to be able to take up ions in contrast to broadly diverse concentration gradients. Currently, two major theories of ion transport across membranes are reported in literature: carrier theory where carrier agents accountable for transferring ions from one side of membrane to the other; encounter specific ions for which they have attraction, form carrier ion complexes; and move across membranes and connecting ATPase theory of ion transport; which is related with the plasmalemma and is activated by cations; the ion pump theory, which is a demanding proces, transporting via electrochemical gradient. Measurements of ion uptake could be achieved through tracer techniques. Long-distance transport of ions to shoots happens in the vascular system, with water being the transporting agent. New and stimulating developments in mineral uptake mechanism of plants have momentously added to our understanding of the function of nutrients uptake in plants. Most research comparative to physiology of nutrient uptake has been conducted under controlled environment by means of particular nutrient cultures in the growth medium.

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Section: Root Morphologymentioning

confidence: 99%

Mechanisms of Nutrient Uptake and Assimilation Processes in Some Plants: A Review

Kiri

2023

dujopas

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“…Kontak yang berlangsung menyebabkan terjadinya proses perpindahan zat kimia dari lingkungan air ke dalam atau permukaan sel telur ikan nila melalui membran sel. Membran sel tersusun atas Protein lemak dan karbohidrat (Kalkan & Esrefoglu, 2020). Pb yang terakumulasi dalam tubuh ikan dalam waktu yang lama akan bersifat toksik.…”

Section: Hasil Penelitian Dan Pembahasanunclassified

RESPON POTENSIAL MEMBRAN SEL TELUR IKAN NILA (Oreochromis niloticus) AKIBAT TERKONTAMINASI TIMBAL (Pb)

Bobu¹

2022

EDP

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Sel telur ikan nila memberikan respon yang berbeda-beda ketika diberikan variasi konsentrasi bahan pencemar timbal (Pb). Penelitian ini menggunakan mikroelektroda yang dihubungkan ke Picoscope untuk mengukur nilai potensial membran sel telur ikan nila. Hasil penelitian menunjukkan bahwa sel telur ikan nila yang tercemar Pb akan menyebabkan terjadinya perubahan potensial membran sel. Konsentrasi Pb yang diberikan terdiri dari enam variasi yaitu 0 0,02ppm ; 0,03ppm; 0,05ppm; 0,1 ppm ; 0,5ppm; dan 1ppm. Telur ikan nila yang terpapar Pb dengan konsentrasi tertinggi 1ppm menyebabkan sel mengalami penurunan potensial membran yang signifikan yaitu -7,77 mV. Pada titik ini, sel telur ikan nila mengalami penurunan potensial membran hingga mengalami kematian sel.

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