Pellicle

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Pellicle from The Yeast Bay Brussels Brett Blend; courtesy of Dan Pixley
Lactobacillus pellicle; courtesy of Matt Humbard
A pellicle is an aggregation of cells, proteins, and long chain sugars formed on the surface of a beer. It is often formed by Brettanomyces, Pediococcus, or Lactobacillus. It can also be formed by Saccharomyces in rare occasions [1].

Introduction

Pellicles form when the surface of the beer is exposed to oxygen [2] One theory is that the formation of a pellicle allows the organism to access the small amount of oxygen that is present in the headspace of the fermentation vessel. Another theory, and one that may be less accurate according to Dr. Matt Humbard, is that the pellicle protects the beer from other microorganisms [1]. Popular thought is that the formation of a pellicle is not indicative of the quality of the sour beer that is being produced; it is only an indication that oxygen has entered the fermentation vessel and that the microbes are reacting to that exposure.

Scientific Terminology

(This section in progress)

As with some things in science that are not greatly explored, terminology isn't always agreed upon or fully established, and thus researching such a topic without a lot of prior knowledge can be challenging. Pellicles are a good example of this. It is sometimes stated that a pellicle is a subtype of biofilm. However, the widely accepted definition of a "biofilm" in biology refers to something else. A biofilm in microbiology is an aggregate of microorganisms where the cells adhere to each other on a surface [3]. Biofilms are encountered in brewing in the form of contaminating microorganisms and poor cleaning/sanitation techniques. Biofilms are a common source of persistent brewhouse infections and can be resistant to the actions of many cleaning and sanitizing agents [4]. Pellicles in beer do not attach to a solid surface, they appear on the "air-liquid interface" (the surface of the beer). They are also not colonies within an adhesive [4]. To make matters even more confusing, the two widely accepted definitions of a "pellicle" in biology are the outer boundary of a protozoa cell [5], and the protein film that forms on the surface of teeth [6].

The usage of the term "biofilm" has been used to describe the layer of film that covers sherry known as "Flor" [7][8]. The word "pellicle" generally isn't used, although it has appeared on occasion when referring to sherry flor in the 1960's [9]. More recently, there have been studies that define a "pellicle" like we see in fermentation as a type of biofilm that forms on the air-liquid interface of a liquid (see references) [10][11][12]. These studies don't directly look at beer pellicles, and the use (or misuse) of the term in these few studies does not warrant a generally accepted scientific definition [4].

Images

External Resources

References

  1. 1.0 1.1 Beer Microbiology – What is a pellicle? A PhD in Beer blog. Dr. Matt Humbard. 01/30/2015. Retrieved 04/26/2015.
  2. Brewing Sour Beer at Home. The Mad Fermentationist Blog. Michael Tonsmeire. 11/06/2009. Retrieved 02/28/2015.
  3. e-Study Guide for Brock Biology of Microorganisms, textbook by Michael T. Madigan.
  4. 4.0 4.1 4.2 Private conversation with Dr. Bryan Heit. Cite error: Invalid <ref> tag; name "Bryan" defined multiple times with different content
  5. Biology of Protozoa. D.R. Khanna. Discovery Publishing House, Jan 1, 2004. Pg 38.
  6. Wikipedia. Dental Pellicle. Retrieved 08/23/2015.
  7. Ethanol-Independent Biofilm Formation by a Flor Wine Yeast Strain of Saccharomyces cerevisiae. Severino Zara, Michael K. Gross, Giacomo Zara, Marilena Budroni and Alan T. Bakalinsky. 2010.
  8. FLO11 is essential for flor formation caused by the C-terminal deletion of NRG1 in Saccharomyces cerevisiae. Mari Ishigami, Youji Nakagawa, Masayuki Hayakawa, Yuzuru Iimura. 2004.
  9. On the pellicle formation by “flor” yeasts. Cantarelli C, Martini A. Antonie Van Leeuwenhoek. 1969.
  10. Gram-negative bacteria can also form pellicles. Armitano J, Méjean V, Jourlin-Castelli C. Environ Microbiol Rep. 2014 Dec.
  11. Motility, Chemotaxis and Aerotaxis Contribute to Competitiveness during Bacterial Pellicle Biofilm Development. Hölscher T, Bartels B, Lin YC, Gallegos-Monterrosa R, Price-Whelan A, Kolter R, Dietrich LE, Kovács ÁT. J Mol Biol. 2015 Jun 26.
  12. Modulation of curli assembly and pellicle biofilm formation by chemical and protein chaperones. Andersson EK, Bengtsson C, Evans ML, Chorell E, Sellstedt M, Lindgren AE, Hufnagel DA, Bhattacharya M, Tessier PM, Wittung-Stafshede P, Almqvist F, Chapman MR. Chem Biol. 2013 Oct 24.