The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista
Minimal cytosolic iron‐sulfur cluster assembly machinery of Giardia intestinalis is partially associated with mitosome
Minimal cytosolic iron‐sulfur cluster assembly machinery of Giardia intestinalis is partially associated with mitosome
The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista
Minimal cytosolic iron‐sulfur cluster assembly machinery of Giardia intestinalis is partially associated with mitosome
The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista
The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista
![PDF) The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista PDF) The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista](https://www.researchgate.net/publication/350198237/figure/tbl1/AS:1013997180563456@1618767175122/continued_Q320.jpg)
PDF) The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista
![PDF) The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista PDF) The iron-sulfur scaffold protein HCF101 unveils the complexity of organellar evolution in SAR, Haptista and Cryptista](https://i1.rgstatic.net/publication/350198237_The_iron-sulfur_scaffold_protein_HCF101_unveils_the_complexity_of_organellar_evolution_in_SAR_Haptista_and_Cryptista/links/607c6d37907dcf667bab413a/largepreview.png)