Periplasma

Periplasma adalah matriks seperti gel terkonsentrasi yang berada di ruang antara membran sitoplasma bagian dalam dan membran luar bakteri yang disebut ruang periplasma pada bakteri Gram-negatif. Dengan menggunakan mikroskop elektron kriogenik, telah ditemukan bahwa ruang periplasma yang jauh lebih kecil juga terdapat pada bakteri Gram-positif.^[1]^[2]

Periplasma dapat mencapai 40% dari total volume sel bakteri Gram-negatif, tetapi persentasenya jauh lebih kecil pada bakteri Gram-positif.^[3] Beberapa jenis enzim ditemukan di periplasma termasuk fosfatase alkali, fosfodiesterase siklik, fosfatase asam, dan 5'-nukleotidase.^[4]

Meskipun bakteri secara konvensional dibagi menjadi dua kelompok utama, yaitu Gram-positif dan Gram-negatif, berdasarkan sifat retensi pewarnaan Gramnya, sistem klasifikasi ini ambigu karena dapat merujuk pada tiga aspek berbeda (hasil pewarnaan, organisasi sel-selubung, kelompok taksonomi), yang tidak selalu bersatu untuk beberapa spesies bakteri.^[5]^[6]^[7]^[8] Namun, meskipun respons pewarnaan Gram pada bakteri merupakan kriteria empiris, dasarnya terletak pada perbedaan mencolok dalam ultrastruktur dan komposisi kimia dari dua jenis bakteri utama. Bakteri ini dibedakan satu sama lain berdasarkan ada atau tidaknya membran lipid luar, yang merupakan karakteristik yang lebih andal dan mendasar dari sel bakteri.^[5]^[9]

Referensi

^ , Matias, V. R., and T. J. Beveridge. 2005. Cryo-electron microscopy reveals native polymeric cell wall structure in Bacillus subtilis 168 and the existence of a periplasmic space. Mol. Microbiol. 56:240-251. DOI:10.1111/j.1365-2958.2005.04535.x.
^ , Zuber B, Haenni M, Ribeiro T, Minnig K, Lopes F, Moreillon P, Dubochet J. 2006. Granular layer in the periplasmic space of Gram-positive bacteria and fine structures of Enterococcus gallinarum and Streptococcus gordonii septa revealed by cryo-electron microscopy of vitreous sections. J Bacteriol. 188:6652-6660. DOI:10.1128/JB.00391-06
^ Otto Holst; Guntram Seltmann (2001). The Bacterial Cell Wall. Berlin: Springer. ISBN 3-540-42608-6.
^ Neu, Harold C.; Heppel, Leon A. (September 1, 1965). "The release of enzymes from Escherichia coli by osmotic shock and during the formation of spheroplasts". The Journal of Biological Chemistry. 240 (9): 3685–3692. PMID 4284300.
^ ^a ^b Gupta, R.S. (1998) Protein phylogenies and signature sequences: A reappraisal of evolutionary relationships among archaebacteria, eubacteria and eukaryotes. Microbiol. Mol. Biol. Rev. 62: 1435-1491.
^ Gupta, R.S.(2000) The natural evolutionary relationships among prokaryotes. Crit. Rev. Microbiol. 26: 111-131.
^ , Desvaux M, Hébraud M, Talon R, Henderson IR. 2009. Secretion and subcellular localizations of bacterial proteins: a semantic awareness issue. Trends Microbiol. 17:139-145. DOI:10.1016/j.tim.2009.01.004
^ , Sutcliffe IC. 2010. A phylum level perspective on bacterial cell envelope architecture. Trends Microbiol. 18:464-470. DOI:10.1016/j.tim.2010.06.005
^ Gupta, R. S. (1998). What are archaebacteria: life’s third domain or monoderm prokaryotes related to Gram-positive bacteria? A new proposal for the classification of prokaryotic organisms. Molecular Microbiology.29(3):695-707.

[Matias_&_Beveridge,_2005-1] , Matias, V. R., and T. J. Beveridge. 2005. Cryo-electron microscopy reveals native polymeric cell wall structure in Bacillus subtilis 168 and the existence of a periplasmic space. Mol. Microbiol. 56:240-251. DOI:10.1111/j.1365-2958.2005.04535.x.

[Zuber_et_al,_2006-2] , Zuber B, Haenni M, Ribeiro T, Minnig K, Lopes F, Moreillon P, Dubochet J. 2006. Granular layer in the periplasmic space of Gram-positive bacteria and fine structures of Enterococcus gallinarum and Streptococcus gordonii septa revealed by cryo-electron microscopy of vitreous sections. J Bacteriol. 188:6652-6660. DOI:10.1128/JB.00391-06

[isbn3-540-42608-6-3] Otto Holst; Guntram Seltmann (2001). The Bacterial Cell Wall. Berlin: Springer. ISBN 3-540-42608-6.

[4] Neu, Harold C.; Heppel, Leon A. (September 1, 1965). "The release of enzymes from Escherichia coli by osmotic shock and during the formation of spheroplasts". The Journal of Biological Chemistry. 240 (9): 3685–3692. PMID 4284300.

[Guptab-5] Gupta, R.S. (1998) Protein phylogenies and signature sequences: A reappraisal of evolutionary relationships among archaebacteria, eubacteria and eukaryotes. Microbiol. Mol. Biol. Rev. 62: 1435-1491.

[Guptad-6] Gupta, R.S.(2000) The natural evolutionary relationships among prokaryotes. Crit. Rev. Microbiol. 26: 111-131.

[Desvaux_et_al.,_2009-7] , Desvaux M, Hébraud M, Talon R, Henderson IR. 2009. Secretion and subcellular localizations of bacterial proteins: a semantic awareness issue. Trends Microbiol. 17:139-145. DOI:10.1016/j.tim.2009.01.004

[Sutcliffe,_2010-8] , Sutcliffe IC. 2010. A phylum level perspective on bacterial cell envelope architecture. Trends Microbiol. 18:464-470. DOI:10.1016/j.tim.2010.06.005

[Guptaa-9] Gupta, R. S. (1998). What are archaebacteria: life’s third domain or monoderm prokaryotes related to Gram-positive bacteria? A new proposal for the classification of prokaryotic organisms. Molecular Microbiology.29(3):695-707.

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Periplasma

Referensi

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